Difference between revisions of "Guide to Character Annotation"

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==Curation Goal for June 15, 2009==
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This page describes the best practices and guidelines for using EQ syntax to consistently and accurately represent phenotypes from the systematic literature. The guidelines are an evolving set of standards created to improve annotation consistency for the use cases and goals of the Phenoscape project. We provide examples of character types commonly encountered in the systematics literature, and provide discussion of special cases and issues in their annotation.
  
The current goal for curation is to annotate all characters to a coarse level of entity and quality. For entity, we are picking entities (or short post-comps for processes, see below) and for quality we are using a small set of PATO terms (see table below).  By curating all A-level papers to this level, we will focus on adding new entities to TAO, and categorize phenotype variation into broad categories which will guide future annotation development efforts.
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The Entity-Quality (EQ) formalism combines ‘Entity’ terms from an anatomical ontology, in our case [http://uberon.github.io/ Uberon], with ‘Quality’ descriptors from the Phenotype and Trait Ontology (PATO). Spatial and positional terms from the Biological Spatial Ontology (BSPO) are also used to represent phenotypes.
  
==PATO terms used for annotation==
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== PATO terms used to annotate systematic characters ==
Curators are currently annotating systematic characters at a coarse level using  a small set of quality terms from PATO. These terms represent higher-level concepts to describe phenotypic variation, and the Quality field in Phenex is currently limited to these terms.
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[[Image:Pato-slim.jpg|Pato-slim.jpg]]
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Below is a simplified graph showing a subset of quality terms from the [http://obofoundry.org/wiki/index.php/PATO:Main_Page Phenotype and Trait Ontology (PATO)] used to curate systematic characters. Terms in orange represent attribute-level qualities.
{| border="1" cellspacing="0" cellpadding="3"
 
! PATO term
 
! Synonyms
 
! Character description examples
 
  
|-
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[[File:Pato-diagram-v2.jpeg|1000px|Image:1000 pixels]]
|| shape || || triangular, lobed, concave, interdigitated
 
  
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{| border="1" cellpadding="3" cellspacing="0"
 
|-
 
|-
|| position || placement, location || horizontal, vertical
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! PATO attribute-level term
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! Synonyms
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! Examples of child terms
 
|-
 
|-
|| size || || thin, large, decreased height
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| shape
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|  
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| triangular, lobed, concave, protruding into
 
|-
 
|-
|| structure ||  || porous, non-porous
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| position
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| placement, location
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| horizontal, anterior to
 
|-
 
|-
|| composition || || ligamentous
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| size
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|  
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| thin, large, decreased height
 
|-
 
|-
|| ossified || ||
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| structure
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|  
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| porous, fused with
 
|-
 
|-
|| cartilaginous || ||
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| composition
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| composed of, content
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| ligamentous, cartilaginous
 
|-
 
|-
|| texture || || smooth, wrinkled
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| texture
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|  
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| smooth, wrinkled
 
|-
 
|-
|| color || ||
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| optical quality
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|
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| color, brightness
 
|-
 
|-
|| present || present in organism, presence ||
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| mass
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|  
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| increased mass
 
|-
 
|-
|| absent || absent from organism, absence ||
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| quality of a solid
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|  
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| flexible, hard
 
|-
 
|-
|| count || count in organism  ||
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| mobility
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|  
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| mobile, immobile
 
|-
 
|-
|| relational shape quality* || || protruding into
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| closure
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|  
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| open, closed
 
|-
 
|-
|| relational spatial quality* || || orientation, anterior to, lateral to
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| behavioral quality
|-
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|  
|| relational structural quality* || || fused with, overlap with, separated from, in contact with
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|  
 
|-
 
|-
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| count
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| number, amount
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| present, absent
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|}
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== Annotation Specificity ==
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Annotations are made using the most specific term or post-composition possible for Entity and Quality. This may not be possible for some characters involving very complex phenotypes, particularly those describing shape variation. In these cases, annotations are made to 'attribute' level PATO terms (e.g., PATO: shape).
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== Character Annotation Examples<br/> ==
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The following are examples of character types commonly encountered in the systematic literature and how we annotate them using the [[EQ for character matrices| '''Entity-Quality (EQ)''']] model in Phenex. A character state can often require multiple EQs to capture all of the anatomical details described by an author. For example, a state may describe “premaxillary teeth round and multicuspidate." This is represented with the following two phenotypes:
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E: premaxillary tooth, Q: round
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E: premaxillary tooth, Q: multicuspidate
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Abbreviations: '''E''' = anatomical entity from Uberon; '''Q''' = Quality term from PATO, '''RE''' = related anatomical entity, '''C''' = count (numerical value).
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=== 1. Qualities of single physical entities<br/> ===
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Many qualities in PATO apply only to single entities (e.g., 'shape,', 'count', 'open') without reference to a second, related entity (RE). Examples of qualities of single physical entities are given below. Other qualities are "relational" and must be used with a second, related entity (e.g., 'fused with'; more examples in #2).  Finally, some qualities can be used either with or without a second entity (e.g., 'increased size').
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==== 1a. Shape ====
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All shape terms apply only to single entities. Example: “sigmoid-shaped supraorbital bone” is annotated as:
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E: supraorbital, Q: sigmoid
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==== 1b. Position ====
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Some position terms apply only to single entities (see 2b. below for position terms applicable to two entities).
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E: projection part_of frontal, Q: vertical
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====1c. Count ====
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'Count' is used to record the number value(s) of an entity. Values for counts are recorded in the “Count" field ''(Note: due to a Phenex bug, the Count field only accepts integer values; ranges ("3-5") or symbols ("≥") must be recorded in the "Comment” field)''. Some examples:
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E: vertebra, Q: count, Count: 33
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E: vertebra, Q: count, Comment: 34-38
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E: vertebra, Q: count, Comment: >38
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E: vertebra, Q: count, Comment: ≥48
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====1d. Presence/Absence ====
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PATO: ''present'' and ''absent'' are used to annotate variation in the presence of entities, e.g.:
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E: pectoral fin, Q: present
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(Technical note: The use of ''present'' and ''absent'' in curation is a curatorial shortcut to the more logically sound syntax discussed on the [http://obofoundry.org/wiki/index.php/PATO:Absent PATO wiki].&nbsp; Presence annotations in Phenoscape are translated into this logically sound form prior to their addition in the Phenoscape KB.)
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'''Inferred presence''' from annotation to other attributes.  It is not necessary to annotate the presence of an entity if the character describes some other attribute regarding its features . For example, "frontal bone present and round" requires only one annotation: '''E: frontal bone Q: round''' because the presence of frontal bone is inferred by this annotation.
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====1e. Mobility ====
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Skeletal entities are sometimes described as being mobile, meaning capable of movement, as opposed to immobile, or fixed in place. The PATO terms 'mobile' and 'immobile' are used in such cases:
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E: maxilla, Q: mobile
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====1f. Composition ====
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Composition qualities describe the types and quantities of a bearer entity's constituent subparts. For example, skeletal entities can be 'cartilaginous' or 'ossified'.
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E: bone , Q: poorly ossified
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Note: unlike its child terms, 'composition' can be used with related entities; see examples in the next section.
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=== 2. Qualities of related physical entities<br/> ===
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Some phenotypes describe a state that exists between two entities. In these cases, relational qualities are used to relate the two entities. Examples of relational qualities include 'differetiated from', 'overlapped by', and 'fused with':
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E: parietal bone, Q: fused with, RE: supraoccipital bone
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Note: some qualities in PATO can be used with either single entities OR with two entities (for example, PATO: increased size).  A partial list of PATO terms that require related entities are listed below in 2a and 2b.
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====2a. Positional qualities between two entities====
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The following are position qualities used to describe the position or orientation of an entity relative to another entity. Note that some positional qualities apply to single entities only (see 1b above).
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* anterior to
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* posterior to
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* diagonal to
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* extends to
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* basal to
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====2b. Structural qualities between two entities====
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* attached to
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* in contact with
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* separated from. (Denotes that two entities are not touching. Typically used as the inverse of 'in contact with')
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* fused with
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* unfused from. (Can apply whether or not two elements are in contact with each other. Typically used as the inverse of 'fused with')
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====2c. Composition quality between two entities====
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Composition (synonym= ''composed of'') can be used to relate an entity to its component related entities (ie., the subparts or entities that it is composed of); for example: the character "Lateral forebrain bundle composed of myelinated fibers" from Wiley and Johnson (#20) is annotated as:
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E: lateral forebrain bundle, Q: composition, RE: myelinated nerve fiber
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=== 3. Size<br/> ===
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There are various ways an author may describe or compare the size of a structure across taxa. These are summarized below:
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'''3a. Relative size''' comparisons compare the size of two structures. For example, "frontal length greater than parietal length" is represented as:
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E: frontal bone, Q: increased length, E2: parietal
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'''3b. Size comparison across taxa'''. For example, a state describing "frontal large” is annotated as below.  Note that the EQ does not require annotation to terms from a taxonomy ontology because the matrix saved in the Phenex file has a mapping from states to taxa.
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E: frontal bone, Q: increased size
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'''3c. Multiple dimensions of size''' may be described for a single structure. For example, an author may describe the frontal bone as having a "greater length relative to width". This requires post-composing the Quality with PATO: "length" and PATO:"width":
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E: frontal bone, Q: length^''increased_in_magnitude_relative_to''(width^''inheres_in''(frontal bone)
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We are currently annotating to this detailed level. A less detailed ("coarse") way to represent the above phenotype is:
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E: frontal bone, Q: increased length, RE: frontal bone
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'''3d. Series of relative sizes''' describes a range of sizes in more than two states. For example: "maxilla: (0) long, (1) medium, or (2) short". Choose the relevant size quality being compared, and place a number in the Count column indicating the proper sort order (e.g., 1 < 2 < 3... for short < medium < long ...). For "short":
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E: maxilla, Q: length, Count: 1
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'''3e. Size variation from a "normal" or "typical" state''': For example: "femur size: (0) small, (1) typical size. State 1 does not imply imply that the femur is large (thus, PATO:‘increased size’ should not be used) but state 1 is distinguished from state 0 by NOT being small in size:
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E: femur, Q: decreased size (state 0)
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E: femur, Q: size '''not''' decreased size (state 1)
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'''3f. Similarity in 'size' and 'shape'''' terms. Many aspects of size variation also relate to shape (and vice versa). For example, the terms PATO:"increased width" (with related synonym: "broad") and PATO:"broad" are separate terms that have different parent terms in the ontology, despite describing very similar phenotypes. "Increased width" has ‘size’ as its parent whereas "broad" has "shape" as its parent. By convention, we use "increased width" to indicated variation in the size dimension.
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Technical note: [http://phenoscape.org/wiki/EQ_shortcuts_%28temporary%29 Curatorial shortcuts] are used in Phenex to represent size, in place of requiring curators to create the complex but semantically correct post-compositions otherwise required. In PATO, the terms "increased size" and "decreased size" (along with their children) are precomposed relative to "normal" (e.g., ''increased size'' has an ''increased_in'' relationship to "normal").&nbsp; Because the "normal" phenotype does not apply to systematic characters, these annotations will be converted in the KB data loader to the correct form using the appropriate relations (''increased_in_magnitude_relative_to'', ''decreased_in_magnitude_relative_to'', ''similar_in_magnitude_relative_to'').
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=== 4. Biological process annotations ===
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Some phenotypes describe variation related to biological processes (e.g., tooth development) and in such cases, terms are taken from the 'biological process' (GO:0008150) branch of the Gene Ontology. Biological process terms can only be used with ‘process quality’ (PATO:0001236) terms in PATO.
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=== 5. Sexually dimorphic phenotypes ===
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Phenotypes specific to males or females are defined using the Uberon terms ‘male organism’ and ‘female organism’. For example, “Male cloacal folds, absent” is represented as
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E: cloacal fold^part_of(male organism), Q: absent
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=== 6. Quality-modified entities and 'present'/'absent' annotations<br/> ===
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Sometimes it is necessary to use a PATO term to modify an entity in post-composition. For example, an author may describe the "number of round teeth":
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E: 'tooth' bearer_of some 'round'; Q: 'count'
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In other cases, we will want to avoid creating a post-composition. For example, consider the character: "branched dorsal fin ray, present or absent". In this case, we interpret the character as describing the quality of the fin rays being <span style="font-family:courier new,courier,monospace">'branched'</span> or <span style="font-family:courier new,courier,monospace">'unbranched'</span>, rather than present or absent:
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E: dorsal fin ray; Q: branched
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E: dorsal fin ray: Q: unbranched
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<br/>'''Implications on reasoning.&nbsp; '''It may appear that there are two similar ways to annotate such characters: for example, consider the presence/absence of white hair:<br/><span style="font-family:courier new,courier,monospace">&nbsp;&nbsp;&nbsp;&nbsp; E: 'hair' bearer_of some 'white'; Q: 'present</span>'<br/>This is different from:<br/><span style="font-family:courier new,courier,monospace">&nbsp;&nbsp;&nbsp;&nbsp; E: 'hair' Q: 'white</span>'<br/>The first annotation describes the presence of some white hair, whereas the second annotation describes *all* hair being white .&nbsp; Generally, we want to use quality modified entities when annotating these types of complex EQs.
  
|}
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=== 7. Bilaterally paired structures<br/> ===
(*) Relational qualities describe phenotypes between two entities
 
  
==Character Annotation Examples==
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Terms for the contralateral halves of bilaterally paired structures are created using the <span style="font-family:courier new,courier,monospace">''in_right_side_of'' </span>and <span style="font-family:courier new,courier,monospace">''in_left_side_of'' </span>relations in a post-composition, where the perspective is from the standpoint of the organism. For example:
  
The following are examples of character types commonly encountered in the systematic literature and how we annotate them using the EQ model in Phenex. Abbreviations: E, entity; Q, quality, RE, related entity, C, count.
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  E: frontal^''in_right_side_of''(whole organism), Q: fused with, RE: frontal^''in_left_side_of''(whole organism)
  
===1. Presence/absence===
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=== 8. [[EQ shortcuts (temporary)|Complementary phenotypes ("negation")]]<br/> ===
  
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The two states of a character are sometimes composed such that one state encompasses any possible phenotype except the one specified in the opposite state. We call this "complementary phenotypes". For example consider the following character: "Opercle: 0), round; 1), not round". State 1 describes a phenotype that can be any shape except 'round'. This is represented in EQ as follows:
  
  E: pectoral fin, Q: present in organism
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  E: opercle, Q: round [state 0]
  E: pectoral fin, Q: absent in organsim
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  E: opercle, Q: shape^not(round) [state 1]
  
If a character describes the presence or absence of a structure located on another entity, (for example, presence of teeth on a particular bone), first check to see whether the structure exists as a term in the TAO before creating a post-composition.
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For State 1, we created a postcomposition for the quality, choosing a meaningful genus term [use the attribute parent term from PATO, see diagram above] and using the "not" relation.
  
The statement "Teeth absent on basihyal bone" is annotated as:
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This convention also applies to variation from a 'normal', 'average', or 'typical' state (See 3e above for size examples).
  
E: basihyal tooth, Q: absent in organism
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=== 9. Singular vs. Plural Entities ===
  
===2. Well developed vs. small or absent entities===
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Terms names given are in the singular form (e.g., 'basihyal tooth' rather than 'basihyal teeth') rather than the plural, primarily to avoid ambiguity in the meaning of term names. A set can also be named to represent a collection of similar or related entities (e.g., 'infraorbital series' rather than 'infraorbitals'). For the character "teeth absent on fifth ceratobranchials", the following EQ applies:
For example, a character involving the auditory foramen is coded with two states: 0, absent or small; 1, well developed.
 
  
State 0 is recorded as polymorphic in Phenex:
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E: ceratobranchial 5 tooth, Q: absent
  
E: auditory foramen, Q: decreased size
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=== 10. Coloration and color pattern phenotypes ===
E: auditory foramen, Q: absent
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Phenotypes involving coloration (e.g., brown, black) are annotated with PATO: color qualities. Likewise, color patterns can be annotated with PATO terms such as 'blotchy' or 'banded'. For example:
  
State 1 is recorded as:
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E: trunk, Q: yellow
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E: caudal fin, Q: banded
  
E: auditory foramen, Q: increased size
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Variation in body markings are annotated using the appropriate terms from Uberon, such as 'melanophore stripe' or 'melanophore spot':  
  
===3. Use of monadic qualities===
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  E: melanophore stripe part_of dorsal fin, Q: black
Monadic qualities are those that exist in a single entity, such as shape, and do not require another entity. For example, annotation of “sigmoid-shaped supraorbital bone” is entered as:
 
  
E: supraorbital, Q: shape
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=== 11. Polymorphic state descriptions ===
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Variability in some aspect of a structure is sometimes described by authors within a single state. For example, an author may describe "infraorbital 5, reduced in size or absent"; to capture the variability in presence and size of this entity, we create two annotations for the state:
  
===4. Use of relational qualities===
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E: infraorbital 5, Q: decreased size
Relational qualities are those that exist in an entity but require an additional entity in order to exist. No qualities that are children of monadic entities (e.g., size, shape) are relevant here. For example, annotation of “parietal fused with supraoccipital” is entered as:
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E: infraorbital 5, Q: absent
  
E: parietal, Q: relational structural quality, RE: supraoccipital
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Another example may describe variation in shape of a structure, such as:
  
===5. Counts===
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E: infraorbital 3, Q: square
Characters involving counts of entities are annotated using the “count” quality. Values for counts are entered in the “count” field(*).  Note that ranges and lower or upper bounds are recorded as follows:
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  E: infraorbital 3, Q: round
  
E: vertebra, Q: count in organism, Count*: 33
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=== 12. Use of skeletal terms (bone, cartilage, skeletal element)<br/> ===
E: vertebra, Q: count in organism, Comments*: 34-38
 
E: vertebra, Q: count in organism, Comments*: >38
 
E: vertebra, Q: count in organism, Comments*: =/>48
 
  
*Note: The Count field in Phenex is currently configured to only accept integer values. Record ranges or min/max values in the Comments field.
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Authors sometimes refer to endochondral structures without specifying whether the structure is “bone” or “cartilage.” For example, the convention for a term like “epibranchial 2” or “basibranchial” is that it is composed of bone and when composed of cartilage an author will say “epibranchial 2 cartilage” or “basibranchial cartilage”. However, this is not universally followed and a curator must read the character description and examine associated text and figures to ascertain this. If after reviewing the publication it is still not clear, then the curator can use the “element” term for the structure. In general, the “element” terms should be used sparingly, and only when an author does not indicate whether a structure (e.g. “epibranchial”) is composed of cartilage or bone.
  
===6. Annotation involving bone and cartilage terms ===
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Note: in paleontological studies, authors may describe an element as "unossified", which is interpreted as the absence of the bone element (see example 7). However, if the matrix of a paleo paper contains extant taxa, ossified for extant taxa means that the element is cartilaginous.
Authors sometimes refer to endochondral structures without specifying whether the structure is “bone” or “cartilage.” For example, the convention for a term like “epibranchial 2” or “basibranchial” is that it is composed of bone and when composed of cartilage an author will say “epibranchial 2 cartilage” or “basibranchial cartilage”. However, this is not universally followed and a curator must read the character description and examine associated text and figures to ascertain this.
 
If after reviewing the publication it is still not clear, then the curator can use the “element” term for the structure.  In general, the “element” terms should be used sparingly, and only when an author does not indicate whether a structure (e.g. “epibranchial”) is composed of cartilage or bone.
 
  
 
The following are a series of examples demonstrating the use of bone, cartilage, and element terms.
 
The following are a series of examples demonstrating the use of bone, cartilage, and element terms.
  
==== ''Example 1''====
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==== ''Example 1''<br/> ====
Epibranchial 1: (0) present and ossified
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  E: Epibranchial 1 bone, Q: present
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Epibranchial 1 bone: (0) present
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  E: epibranchial 1 bone, Q: present
  
Epibranchial 1: (1) present and cartilaginous
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Epibranchial 1 bone: (1) absent
E: Epibranchial 1 cartilage, Q: present
 
  
Epibranchial 1: (2) absent
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  E: epibranchial 1 bone, Q: absent
E: Epibranchial 1 cartilage, Q: absent
 
  E: Epibranchial 1 bone, Q: absent
 
  
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==== ''Example 2''<br/> ====
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* Epibranchial 1: (0) present and ossified.
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E: epibranchial 1 bone, Q: present
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(Note that the annotation "epibranchial 1 cartilage, absent" is not needed)
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* Epibranchial 1: (1) present and cartilaginous
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E: epibranchial 1 cartilage, Q: present
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(Note that the annotation "epibranchial 1 bone, absent" is not needed)
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* Epibranchial 1: (2) absent
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E: epibranchial 1 cartilage, Q: absent
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E: epibranchial 1 bone, Q: absent
 
The curator should use both the cartilage and bone terms to annotate state 2 because the author clearly differentiates between the two.
 
The curator should use both the cartilage and bone terms to annotate state 2 because the author clearly differentiates between the two.
  
==== ''Example 2''====
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==== ''Example 3''<br/> ====
Epibranchial 1 (0) present, (0) absent.  After careful reading of associated text in the publication, the curator cannot conclude that the author refers to bone or cartilage, and therefore uses "element" term:
 
E: epibranchial 1 element, Q: present or Q: absent
 
  
==== ''Example 3''====
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Epibranchial 1 (0) present, (0) absent. After careful reading of associated text in the publication, the curator cannot conclude that the author refers to bone or cartilage, and therefore uses "element" term:
Epibranchial 1 bone: (0) present; (1) absent
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E: epibranchial 1 bone; Q: present or Q: absent
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E: epibranchial 1 element, Q: present
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E: epibranchial 1 element, Q: absent
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==== ''Example 4''<br/> ====
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Epibranchial 1: (0) triangular. After careful reading of associated text in the publication, the curator cannot conclude that the author refers to bone or cartilage, and therefore uses "element" term:
  
==== ''Example 4''====
 
Epibranchial 1: (0) triangular.  After careful reading of associated text in the publication, the curator cannot conclude that the author refers to bone or cartilage, and therefore uses "element" term:
 
 
  E: epibranchial 1 element, Q: shape
 
  E: epibranchial 1 element, Q: shape
  
==== ''Example 5''====
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==== ''Example 5'' ====
Epibranchial number: (0) 3; (1) 4. After careful reading of associated text in the publication, the curator cannot conclude that the author refers to bone or cartilage, and therefore uses "element" term:
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E: epibranchial element; Q: count; C: 3 or C: 4
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Epibranchial number: (0) 3; (1) 4. After careful reading of associated text in the publication, the curator cannot conclude that the author refers to bone or cartilage, and therefore uses "element" term:
  
==== ''Example 6''====
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E: epibranchial element, Q: Count 3 (State 0)
Epibranchial bone number: (0) 3; (1) 4
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  E: epibranchial element, Q: Count 3 (State 1)
  E: epibranchial bone; Q: count; C: 3 or C: 4
 
  
== Refining terms  by post-composition ==
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==== ''Example 6 -- Convention used in paleontology''<br/> ====
  
'''**Note: for the current curation goal, we are creating very simple post-compositions for the presence or absence of processes/shelves/ridges/etc... on bones. For example, (process^part_of(entity)) is composed without reference to spatial orientation.'''
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The convention in paleo studies is to use "unossified" when no trace of the skeletal element is present. It does not imply that cartilage is present or absent. For example:
  
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Pubis: (0) unossified, (1) ossified
  
Oftentimes the need arises to use a more granular term than is already present in the ontology, whether it is the anatomical entity or the quality. For example, to prevent ontology "bloat", regions, margins, and projections of a bone are not in the anatomy ontology, but the bone itself is, and the concepts of margin, relative location of the margin (anterior, posterior, ventral, dorsal, etc), or bony projection are too, or are in other ontologies (spatial aspect, for example). Similarly, the directionality of a phenotype (such as a rotation, or curvature) isn't necessarily present in PATO, but the component terms necessary to express it are. The act of combining terms on-the-fly into cross-product terms is called post-composition, as opposed to pre-composed terms that are already in the ontology.
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  E: pubis (is_a bone), Q: absent
 +
E: pubis (is_a bone), Q: present
  
Post-composed terms can be created in Phenex following the genus-differentia principle of defining terms, where one term serves as the genus, which is then differentiated using a relationship and a differentia term. Unlike pre-composed terms, post-composed terms do not have an ID, and hence are "anonymous." Therefore if the same post-composition is used multiple times, it has the same semantics, but not the same identity. For example, if one wants to assign multiple annotations to the same process of the lateral ethmoid in the same specimen, using post-composed terms does not allow the identity of the anatomical structure between the annotations to be inferred.
+
==== ''Example 7 --&nbsp; ''''Presence of dermal elements'''''<br/> ====
  
The order in which the terms are composed is important if the composition relationship is not reflexive (a relationship is reflexive iff A rel B <=> B rel A). Most relationships are not reflexive. As a general rule, choose the more general part as the genus, and then use the relationship and differentia to narrow down. For example, for "process of the lateral ethmoid" use "process" as the genus, and use the relationship and differentia to narrow down  which process of the many that are possible you mean, such as using part_of for the relationship and "lateral ethmoid" as the differentia (formally, the "process that is part_of the lateral ethmoid").
+
Cleithrum: (0) unossified; (1) ossified
  
Note that semantically, the post-composed term is equivalent to a pre-composed term, provided the pre-composed term has both the inheritance relationship and the cross-product relationship properly recorded. For example"process of lateral ethmoid" is-a "process", and  "process of lateral ethmoid" part-of "lateral ethmoid".
+
E: cleithrum, Q: absent (State 0)
 +
  E: cleithrum, Q: present (State 1)
  
=== Refining entity terms on-the-fly ===
+
== Higher-Level Taxon Annotations<br/> ==
 +
Authors sometimes describe features for higher-level taxa rather than species, and this can present challenges for EQ annotation (see discussion in Jackson et al., in prep). We developed the following guidelines to handle these cases:
  
To post-compose a term (for example, "maxillary process") using Phenex, first type in the genus term 'process' in the Entity field within the "Phenotypes" panel.  Then open the Post-composition Editor box by right-clicking on the Entity cell (make sure that the entity cell is blue in color) :[[Image:Right-click.png|center]]
+
* In cases where authors describe features for higher-level taxa but do not specify the species or subgroups to which the taxonomic grouping applies, we annotate only to the specific higher-level taxon stated by the author. For example, for a character stating “preopercle triangular in Osteoglossomorpha”, only ‘Osteoglossomorpha' is annotated with this character and species-level annotations are not applied. Had the author indicated the family membership in this higher-level group, we would apply annotations to the containing families only, and not to the species which were not specified.
  
 +
* Authors may also refer to higher-level taxa not placed in a classification (e.g., Holacanthopterygii in Wiley and Johnson (2010)) and for which containing taxa was not specified. Because of insufficient information about placement and containing taxa, we don’t record annotations to these taxa.
  
 +
* Higher-level taxa in a publication may in some cases differ from higher-level groupings in the VTO. In such cases, we annotate to the containing taxa as intended in the publication. For example, some taxa included in Osmeridae in Wiley and Johnson (2010) are elevated to their own family (Plecoglossidae) in VTO; we ensure that the characters are applied to the relevant taxa within the family Plecoglossidae in VTO.
  
Now click on “Edit Post-composed Term.”  The Editor box should now appear (see below), with “process” in the Genus field. The Genus is the feature of specific interest (varying feature in systematics). Click the “+” button to add a row in the table, type “part_of” in the relationship field, and type “maxilla” in the differentia field.  Click OK. [[Image:Post-comp-box.jpg|center]]
+
* In cases where a higher-level taxon is polymorphic for a character, we investigate the literature to determine the appropriate species coding. If this information is not available or can’t be traced in the literature to particular species, we do not apply the coding to the containing species
  
The post-composed term appears in the Entity field as:
+
== Lack of Alternative Character State Descriptions ==
 +
As discussed in Jackson et al. (in prep), authors may sometimes describe a feature or character without specifying the alternative phenotype or character state. For example, an author may describe the "pelvic fin absent" in one taxon, and not explicitly state the alternative ("pelvic fin present") which might apply to all other taxa. We annotate only the asserted state and never an implied alternative state.
  
process^part_of(maxilla)
+
== Interpreting Authors' Text<br/> ==
  
=== Refining entities on the fly using spatial terms ===
+
Authors may sometimes describe characters with words that have exact matches to ontology terms, but these exact term matches may not chosen by a curator for various reasons.&nbsp; For example, a character may describe: “Clavicle shape of ventromedial plate: narrow, deep, intermediate”.&nbsp; “Deep” has an exact match in PATO but given the context of the other states and the curator’s knowledge of this particular anatomy, the curator decided that “deep” refers to an increase in width and therefore chose PATO: <span style="font-family:courier new,courier,monospace">increased width</span> to annotate this state.<br/><br/>Another example relates to the PATO terms for <span style="font-family:courier new,courier,monospace">continuous</span>, <span style="font-family:courier new,courier,monospace">discontinuous</span> and <span style="font-family:courier new,courier,monospace">offset quality</span>.&nbsp; These are children of <span style="font-family:courier new,courier,monospace">process quality</span> in PATO and therefore should not be used in the context of anatomy. However, authors sometimes use these terms to describe qualities of margins (continuous, discontinuous) and position (offset).&nbsp; Other PATO terms are more appropriate for these annotations (e.g., <span style="font-family:courier new,courier,monospace">straight</span>, <span style="font-family:courier new,courier,monospace">offset</span>).
Often we will want to include spatial information in a post-composed term. The Spatial Ontology is used to post-compose terms related to bone margins, surfaces, or regions.  For example, the entity “anterior process of the maxilla" is post-composed as follows:
 
  
Within the Entity field, type “process” and right-click the field to open the Post-Composition Editor box. Within this box, Click the + button to add relationship = "part_of" and differentia = "anterior region".  Right click on the differentia field to open another Post-Composition Editor box to add second post-composed term for "anterior margin of maxilla" (see below).  Click the OK button after you have filled out the genus and differentia for this nested composition.
 
  
[[Image:Nested-boxes.png|center]]
 
  
Within Phenex, the post-composed term for process on the anterior margin of the maxilla appears as:
+
== Creating or refining terms by post-composition<br/> ==
process^part_of(anterior region^part_of(maxilla))
 
  
As for semantics, identifiability, and rules for post-composing, the same applies as above for entity terms applies to spatial terms. In creating the nested term "anterior  region of maxilla", start with the more general term (for example, the "anterior region") as the genus, then refine it using a relationship and a differentia term (for example, anterior region that is part_of the "supraorbital bone").
+
Often times the need will arise for a new term during annotation. New terms can either be requested using the ORB in Phenex and later formally added to the ontology (pre-composed terms), or they can be composed "on-the-fly" by combining existing ontology terms (post-composed terms). Generally, we add terms to the ontology for entities that are described in multiple publications. We generally create a post-composed term in cases where entities are not formally named in a publication, or only described in the context of a single publication. This is the case when annotating the presence of projections on bones. We often will want to "post-compose" terms to prevent ontology "bloat".  
  
<!-- DO NOT DELETE THE FOLLOWING SECTIONS, COMMENTED OUT BY WD BECAUSE WE ARE NOT CURRENTLY ANNOTATING TO THIS FINE LEVEL BUT MIGHT DO SO IN THE FUTURE
+
Post-composed terms are created by combining existing terms, e.g., anatomical regions, margins, projections, and the specific structure from the anatomy ontology. They can be created in Phenex following the "genus-differentia" principle of defining terms, where one term serves as the genus, which is then differentiated using a relationship and a differentia term. Unlike pre-composed terms, post-composed terms do not have an ID, and hence are "anonymous." Therefore if the same post-composition is used multiple times, it has the same semantics, but not the same identity. For example, if one wants to assign multiple annotations to the same process of the lateral ethmoid in the same specimen, using post-composed terms does not allow the identity of the anatomical structure between the annotations to be inferred.
=== Specifying the contralateral half of a bilaterally paired structure ===
 
  
Use the spatial term "contralateral" to post-compose entities for the right and left members of a paired structure. For example, a character may describe the  posterior processes of the pelvic bone in contact with each other. This would be annotated as:
+
=== General rules about post-composing Entities or Qualities ===
 +
There are numerous relations used in post-compositions, particularly for Entities (see Table below). However, Qualities have a restricted set of relations that can be used in post-composition. These include ''inheres_in'', ''not'', and ''size''-related relations (see Table).
  
E: posterior process of basipterygium
+
The order in which the terms are composed is important if the composition relationship is not symmetric (a relationship is symmetric iff A rel B &lt;=&gt; B rel A). Most relationships are not symmetric. As a general rule, choose the more general part as the genus, and then use the relationship and differentia to narrow down. For example, for "process of the lateral ethmoid" use "anatomical projection" as the genus, and use the relationship and differentia to narrow down which process of the many that are possible you mean, such as using part_of for the relationship and "lateral ethmoid" as the differentia (formally, the "anatomical projection that is part_of the lateral ethmoid").
Q: in contact with
 
RE: contralateral^part_of(posterior process of basipterygium)
 
-->
 
  
<!--DO NOT DELETE THE FOLLOWING SECTIONS, COMMENTED OUT BY WD BECAUSE WE ARE NOT CURRENTLY ANNOTATING TO THIS FINE LEVEL BUT MIGHT DO SO IN THE FUTURE
+
Note that semantically, the post-composed term is equivalent to a pre-composed term, provided the pre-composed term has both the inheritance relationship and the cross-product relationship properly recorded. For example, "process of lateral ethmoid" is-a "anatomical projection", and "process of lateral ethmoid" part-of "lateral ethmoid".
== Complex size and shape qualities ==
 
  
We are currently annotating complex size and shape characters only to the level of "size" or "shape" for quality.  For some characters, entity post-composition can be used to refine size qualities to record details of size differences between states of a character:
+
=== Creating post-composition in Phenex ===
  
=== Refining size qualities by making them relative ===
+
To post-compose a term (for example, "maxillary process") using Phenex, first type in the genus term 'anatomical projection' in the Entity field within the "Phenotypes" panel. Then open the Post-composition Editor box by right-clicking on the Entity cell (make sure that the entity cell is blue in color)&nbsp;:[[File:Right-click2.png|center|Right-click2.png]]
Because size qualities are monadic terms, comparison of size of one bone relative to another requires post-composition of the size quality.  For example, the character “frontal length greater than parietal length” is entered as:
 
  
E: frontal
+
Now click on “Edit Post-composed Term.” The Editor box should now appear (see below), with 'anatomical projection' in the Genus field. The Genus is the feature of specific interest (varying feature in systematics). Click the “+” button to add a row in the table, type “part_of” in the relationship field, and type “maxilla” in the differentia field. Click OK. [[File:Post-comp-box2.jpg|center|Post-comp-box2.jpg]]
Q: increased length, relative_to partietal
 
  
To post-compose the size quality, type ‘increased length’ in the quality field and click “comp” button. Select ‘relative_to’ in the relationship field and type ‘parietal’ in the differentia field., then click OK. Note that this post-composition follows the same rule of starting with the general terms ("increased length") as the genus, and then refining it with a relationship and a differentia (the increased length that is relative_to the "parietal").
+
  anatomical projection^part_of(maxilla)
  
===Size qualities with ratio===
+
=== Refining post-compositions using terms from the Spatial Ontology (BSPO)<br/> ===
For the characters in which a proportion or ratio is given in relating the length of one bone to another, the value of ratio is recorded. For example:
 
Length of infraorbital 2: (0) over twice as long as infraorbital 1; (1) less than twice as long as infraorbital 1. This would be indicated in Phenex as follows:
 
  
E: infraorbital 2, Q: increased length, relative_to: infraorbital 1, Measurement: >2, Unit: ratio
+
The Spatial Ontology (BSPO) is used to post-compose terms related to the margins, surfaces, or regions of skeletal elements. For example, the entity “anterior process of the maxilla" is post-composed as follows:
E1: Infraorbital 2, Q: decreased length, relative_to: infraorbital 1, Measurement: <2, Unit: ratio
 
  
The qualities are post-composed.
+
anatomical projection^part_of(anterior region^part_of(maxilla))
-->
 
  
==Evidence Codes==
+
This example is a type of "nested" post-composition that begins with 'anatomical projection' as the genus term, which is then related to its location on the maxilla:  starting with the more general term (here, the "anterior region") as the genus, then refine it using a relationship and a differentia term (thus, anterior region that is part_of the "maxilla").
  
'''**Note: Does not apply to current curation goal'''
+
Use of terms for '''regions vs. sides in BSPO:''' Regions are defined as not having well-defined boundaries, unlike sides. For post-compositions, we usually annotate using region terms because the placement of processes on skeletal elements aren't described with very much detail. For example, if an author describes the dorsal process of some bone, then we post-compose "anatomical projection part of dorsal region part of bone".&nbsp; This also applies to an author describing the shape of a portion of a skeletal element.
  
We record phenotype descriptions as properties of species, and annotations are assigned one of three evidence codes based on the level of evidence given by an author for phenotype observations. These specimen evidence codes are in an Evidence Codes Ontology that was developed by the broader biological community (see http://obofoundry.org/cgi-bin/detail.cgi?id=evidence_code). We have added evidence codes to this ontology, and we use the following in order below from strong to weak evidence.
+
To create post-compositions using BSPO in Phenex, right click the Entity field to bring up the post-composition editor box.&nbsp; Type “anatomical projection” and right-click the field to open the Post-Composition Editor box. Within this box, Click the + button to add relationship = "part_of" and differentia = "anterior region". Right click on the differentia field to open another Post-Composition Editor box to add second post-composed term for "anterior margin of maxilla" (see below). Click the OK button after you have filled out the genus and differentia for this nested composition.
  
===Inferred from Voucher Specimen (IVS)===
+
[[File:Nested-boxes2.png|center|Nested-boxes2.png]]
Used when an annotation is made on the basis of a phenotype description for a species or higher level group that is given by an author who explicitly references an observation of a voucher specimen(s). Voucher specimens are defined as those specimens with permanent museum catalog numbers. Thus it would be possible for a person to examine this particular specimen and observe the annotated phenotype.
+
 
 +
=== Multiple differentia terms and nesting in post-composition ===
 +
 
 +
Post-compositions can contain multiple differentia terms that are either nested:
 +
anatomical project^part_of(anterior region^part_of(maxilla))
 +
 
 +
or not nested:
 +
joint^connects(metapterygoid)^connects(hyomandibula)
 +
 
 +
For nested post-compositions, the order of nested terms is important (e.g., maxilla^part_of(anterior region^part-of(anatomical projection)) is incorrect), as is the nesting itself (e.g., anatomical projection^part_of(anterior region)^part_of(maxilla)  is incorrect).
 +
 
 +
Some post-compositions with multiple differentia do not require nesting (see [https://www.phenoscape.org/wiki/Guide_to_Character_Annotation#Creating_.22joint.22_terms_on-the-fly discussion of joint post-compositions]).
 +
 
 +
=== Creating "joint" terms on-the-fly ===
 +
 
 +
Joints are defined in Uberon according to the skeletal elements that participate in the joint. The <span style="font-family:courier new,courier,monospace">''connects''</span> relation is used to relate skeletal elements to skeletal joints.&nbsp; We post-compose joint terms that are not likely to be used repeatedly for annotation. To post-compose a joint, for example the "metapterygoid-hyomandibular joint", use the post-composition editor box by right-clicking on the Entity field and compose the following term.&nbsp; Note that this expression is not nested.
 +
 
 +
skeletal joint^connects(metapterygoid)^connects (hyomandibula)
 +
 
 +
== Relations used for post-compositions ==
 +
 
 +
{| class="wikitable" style="width: 1046px"
 +
|-
 +
! Relation<br/>
 +
! Category
 +
! Design &nbsp;Pattern&nbsp;&nbsp;&nbsp;<br/>
 +
! Examples
 +
|-
 +
| anteriorly connected to
 +
| connectedness
 +
| E anteriorly_connected_to E<br/>
 +
| 'head' and ('''anteriorly_connected_to''' some 'neck')
 +
|-
 +
| attaches_to
 +
| connectedness
 +
| E attaches_to E<br/>
 +
| Used primarily to represent attachment of teeth, scales, and ligaments. Examples:
 +
'tooth' and ('''attaches_to''' some 'maxilla')
 +
 
 +
'scale' and ('''attaches_to''' some 'caudal fin')
 +
 
 +
NOTE: Teeth and scales are not always related to structures by attaches_to; they can also be part_of an anatomical structure, e.g., 'tooth' '''part_of''' (some 'dentition') or 'scale' ('''part_of''' some 'scale row')
 +
 
 +
|-
 +
| connected_to<br/>
 +
| connectedness
 +
| E connected_to E<br/>
 +
|
 +
Used between entities of the same general type. For example, cities, bones, neurons
 +
 
 +
'sternum' and ('''connected_to''' some 'rib')
 +
 
 +
|-
 +
| connects<br/>
 +
| connectedness<br/>
 +
| E connects E<br/>
 +
| Used between the entity facilitating the connection and each entity on either side. For example, roads, joints, axons + synapses.This is used to post-compose terms for joints. For example, metapterygoid-hyomandibular joint is post-composed as:<br/>'joint' and ('''connects''' some 'metapterygoid') and ('''connects''' some 'hyomandibula')<br/>
 +
|-
 +
| distally_connected_to
 +
| connectedness
 +
| E distally_connected_to E<br/>
 +
| 'leg' and ('''distally_connected_to''' some 'pes')<br/>
 +
|-
 +
| posteriorly connected to
 +
| connectedness
 +
| E posteriorly_connected_to E<br/><br/>
 +
| 'neck' and ('''posteriorly connected to''' some 'trunk')
 +
|-
 +
| proximally connected to
 +
| connectedness
 +
| E proximally_connected_to E<br/>
 +
| 'forelimb skeleton' and ('''proximally_connected_to''' some 'pectoral girdle skeleton')
 +
|-
 +
| develops_from
 +
| development
 +
| E develops_from E<br/>
 +
| 'endochondral bone' and ('''develops_from''' some 'cartilage element')
 +
|-
 +
| has_muscle_insertion
 +
| muscle attachment
 +
| 'muscle X' has_muscle_insertion E<br/>
 +
| 'triceps brachii' and ('''has_muscle_insertion''' some 'olecranon')
 +
|-
 +
| has_muscle_origin
 +
| muscle attachment
 +
| 'muscle X' has_muscle_origin E<br/>
 +
| 'triceps brachii' and ('''has_muscle_origin''' some 'humerus')
 +
|-
 +
| serves_ as _attachment _site_ for
 +
| muscle attachment
 +
| E serves_as_attachment_site_for muscle X<br/>
 +
|
 +
anatomical projection^'''serves_as_attachment_site_for'''(triceps brachii)^'''part_of'''(coracoid bone)
 +
 
 +
Note: this post-composition is not nested
 +
 
 +
|-
 +
| has_part
 +
| mereological
 +
| E has_part E<br/>
 +
| 'premaxilla' and ('''has_part''' some 'anatomical projection')
 +
|-
 +
| part_of
 +
| mereological
 +
| E part_of E<br/>
 +
| 'anatomical projection' and ('''part_of''' some 'premaxilla')
 +
|-
 +
| bearer_of<br/>
 +
| quality
 +
| E bearer_of Q<br/>
 +
|
 +
tooth' and ('''bearer_of''' some 'tapered')
 +
 
 +
Note: '''bearer_of''' is most likely used as a modifier of an Entity term, not used in Quality field
 +
 
 +
|-
 +
| inheres_in
 +
| quality
 +
| Q inheres_in E<br/>
 +
| 'length' and ('''inheres_in''' some 'coracoid bone')<br/>
 +
|-
 +
| decreased_in_magnitude_relative_to<br/>
 +
| size
 +
| Q decreased_in_magnitude_relative_to Q<br/>
 +
| <span style="font-family:arial,helvetica,sans-serif">[1]E: frontal bone, Q: length^'''''decreased_in_magnitude_relative_to'''''(width^'''''inheres_in'''''(frontal bone))</span><br/>
 +
|-
 +
| increased_in_magnitude_relative_to<br/>
 +
| size<br/>
 +
| Q increased_in_magnitude_relative_to Q<br/>
 +
| <span style="font-family:arial,helvetica,sans-serif">[1]E: frontal bone, Q: length^''increased_in_magnitude_relative_to''(width^'''''inheres_in'''''(frontal bone))</span><br/>
 +
|-
 +
| similar_in_magnitude_relative_to<br/>
 +
| size
 +
| Q similar_in_magnitude_relative_to Q<br/>
 +
| <span style="font-family:arial,helvetica,sans-serif">[1]E: frontal bone, Q: length^</span>'''''similar_in_magnitude_relative_to'''''<span style="font-family:arial,helvetica,sans-serif">(width^'''''inheres_in'''''(frontal bone))</span><br/>
 +
|-
 +
| adjacent_to
 +
| spatial
 +
| E adjacent_to E<br/>
 +
| <br/>
 +
|-
 +
| anterior_to
 +
| spatial
 +
| E anterior_to E<br/>
 +
| 'basal fulcrum' and ('''anterior_to''' some 'dorsal fin')
 +
|-
 +
| deep_to
 +
| spatial
 +
| E deep_to E<br/>
 +
| <br/>
 +
|-
 +
| distal_to
 +
| spatial
 +
| E distal_to E<br/>
 +
| 'radial' and ('''distal_to''' some 'ulnare')
 +
|-
 +
| dorsal_to
 +
| spatial
 +
| E dorsal_to E<br/>
 +
| 'anatomical region' and ('''dorsal_to''' some (glenoid fossa and ('''part_of''' some 'scapula')
 +
|-
 +
| encloses
 +
| spatial
 +
| E encloses E<br/>
 +
| <br/>
 +
|-
 +
| extends_from
 +
| spatial
 +
| E extends_from E<br/>
 +
| 'anatomical surface' and ('''extends_from''' some 'parietal bone')
 +
|-
 +
| extends_to
 +
| spatial
 +
| E extends_to E<br/>
 +
| 'anatomical surface' and ('''extends_to''' some 'frontal bone')
 +
|-
 +
| has_cross_section
 +
| spatial
 +
| <br/>
 +
| <br/>
 +
|-
 +
| in_anterior_side_of
 +
| spatial
 +
| E in_anterior_side_of E<br/>
 +
| <br/>
 +
|-
 +
| in_distal_side_of
 +
| spatial
 +
| E in_distal_side_of E<br/>
 +
| <br/>
 +
|-
 +
| in_lateral_side_of
 +
| spatial
 +
| E in_lateral_side_of E<br/>
 +
| <br/>
 +
|-
 +
| in_left_side_of
 +
| spatial
 +
| E in_left_side_of E<br/>
 +
| 'frontal bone' and ('''in_left_side_of''' some 'body')
 +
|-
 +
| in_median_plane_of
 +
| spatial
 +
| E in_median_plane_of E<br/>
 +
| <br/>
 +
|-
 +
| in_posterior_side_of
 +
| spatial
 +
| E in_posterior_side_of E<br/>
 +
| <br/>
 +
|-
 +
| in_proximal_side_of
 +
| spatial
 +
| E in_proximal_side_of E<br/>
 +
| <br/>
 +
|-
 +
| in_right_side_of
 +
| spatial
 +
| E in_right_side_of E<br/>
 +
| &nbsp;'frontal bone' and ('''in_right_side_of''' some 'body')
 +
|-
 +
| <br/>
 +
| <br/>
 +
| <br/>
 +
| <br/>
 +
|-
 +
| posterior_to
 +
| spatial
 +
| E posterior_to E<br/>
 +
| <br/>
 +
|-
 +
| proximal_to
 +
| spatial
 +
| E proximal_to E<br/>
 +
| <br/>
 +
|-
 +
| surrounded_by
 +
| spatial
 +
| E surrounded_by E<br/>
 +
| <br/>
 +
|-
 +
| surrounds
 +
| spatial
 +
| E surrounds E<br/>
 +
| 'anatomical projection' and ('''surrounds''' some 'popliteal area')
 +
|-
 +
| ventral_to
 +
| spatial
 +
| E ventral_to E<br/>
 +
| <br/>
 +
|-
 +
| vicinity_of
 +
| spatial
 +
| E vicinity_of E<br/>
 +
| <br/>
 +
|-
 +
| not
 +
| <br/>
 +
| Q not Q<br/>
 +
| Used to represent complementary phenotypes, for example:<br/>
 +
'shape' and ('''not''' some 'round')
 +
 
 +
|}
  
*Note: if there is a matrix in the paper, the IVS evidence code is assigned to all annotations linked to the character list.
+
*[1] [http://phenoscape.org/wiki/Guide_to_Character_Annotation#6._Size see note about curatorial shortcuts related to 'size']
  
===Traceable Author Statement (TAS)===
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== Evidence Codes ==
The TAS evidence code covers author statements that are attributed to a cited source. Typically this type of information comes from review articles. Material from the introductions and discussion sections of non-review papers may also be suitable if another reference is cited as the source of experimental work or analysis. When annotating with this code the curator should use caution and be aware that authors often cite papers dealing with experiments that were performed in organisms different from the one being discussed in the paper at hand. Thus a problem with the TAS code is that it may turn out from following up the references in the paper that no experiments were performed on the gene in the organism actually being characterized in the primary paper. For this reason we recommend (when time and resources allow) that curators track down the cited paper and annotate directly from the experimental paper using the appropriate experimental evidence code. When this is not possible and it is necessary to annotate from reviews, the TAS code is the appropriate code to use for statements that are associated with a cited reference. Once an annotation has been made to a given term using an experimental evidence code, we recommend removing any annotations made to the same term using the TAS evidence code.
 
  
===Nontraceable Author Statement (NAS)===
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'''**Note: Does not apply to current curation'''
The NAS evidence code should be used in all cases where the author makes a statement that a curator wants to capture but for which there are neither results presented nor a specific reference cited in the source used to make the annotation. The source of the information may be peer reviewed papers, textbooks, database records or vouchered specimens.
 
  
==How to write definitions for ontology terms==
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We record phenotype descriptions as properties of species, and annotations are assigned one of three evidence codes based on the level of evidence given by an author for phenotype observations. These specimen evidence codes are in an Evidence Codes Ontology that was developed by the broader biological community (see [http://obofoundry.org/cgi-bin/detail.cgi?id=evidence_code http://obofoundry.org/cgi-bin/detail.cgi?id=evidence_code]). We have added evidence codes to this ontology, and we use the following in order below from strong to weak evidence.
  
===Genus-differentia definitions===
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=== Inferred from Voucher Specimen (IVS) ===
  
Term definitions in the teleost anatomy ontology (TAO) take the form of genus-differentia definitions:  B is an A that has X. The term B is defined by its membership in higher category A and distinguished from its sibling terms by characteristic X. The following are examples of genus-differentia definitions in the TAO:
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Used when an annotation is made on the basis of a phenotype description for a species or higher level group that is given by an author who explicitly references an observation of a voucher specimen(s). Voucher specimens are defined as those specimens with permanent museum catalog numbers. Thus it would be possible for a person to examine this particular specimen and observe the annotated phenotype.
  
Antorbital: Dermal bone that is located on the anterior margin of the infraorbital series, dorsal to the first infraorbital and lateral to the nasal bone.
+
*Note: if there is a matrix in the paper, the IVS evidence code is assigned to all annotations linked to the character list.
  
Dentary: Dermal bone that forms the anterolateral part of the lower jaw.
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=== Traceable Author Statement (TAS) ===
  
In example 1, the definition mentions the parent dermal bone of the term antorbital, followed by the characteristics that differentiate antorbital from all other dermal bones.
+
The TAS evidence code covers author statements that are attributed to a cited source. Typically this type of information comes from review articles. Material from the introductions and discussion sections of non-review papers may also be suitable if another reference is cited as the source of experimental work or analysis. When annotating with this code the curator should use caution and be aware that authors often cite papers dealing with experiments that were performed in organisms different from the one being discussed in the paper at hand. Thus a problem with the TAS code is that it may turn out from following up the references in the paper that no experiments were performed on the gene in the organism actually being characterized in the primary paper. For this reason we recommend (when time and resources allow) that curators track down the cited paper and annotate directly from the experimental paper using the appropriate experimental evidence code. When this is not possible and it is necessary to annotate from reviews, the TAS code is the appropriate code to use for statements that are associated with a cited reference. Once an annotation has been made to a given term using an experimental evidence code, we recommend removing any annotations made to the same term using the TAS evidence code.
  
Post-composed terms (described below) are terms created on-the-fly at the time of annotation, and take the form of genus-differentia definitions.
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=== Nontraceable Author Statement (NAS) ===
  
[[Category:Curation]]
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The NAS evidence code should be used in all cases where the author makes a statement that a curator wants to capture but for which there are neither results presented nor a specific reference cited in the source used to make the annotation. The source of the information may be peer reviewed papers, textbooks, database records or vouchered specimens.

Latest revision as of 05:13, 16 November 2016

This page describes the best practices and guidelines for using EQ syntax to consistently and accurately represent phenotypes from the systematic literature. The guidelines are an evolving set of standards created to improve annotation consistency for the use cases and goals of the Phenoscape project. We provide examples of character types commonly encountered in the systematics literature, and provide discussion of special cases and issues in their annotation.

The Entity-Quality (EQ) formalism combines ‘Entity’ terms from an anatomical ontology, in our case Uberon, with ‘Quality’ descriptors from the Phenotype and Trait Ontology (PATO). Spatial and positional terms from the Biological Spatial Ontology (BSPO) are also used to represent phenotypes.

Contents

PATO terms used to annotate systematic characters

Below is a simplified graph showing a subset of quality terms from the Phenotype and Trait Ontology (PATO) used to curate systematic characters. Terms in orange represent attribute-level qualities.

Image:1000 pixels

PATO attribute-level term Synonyms Examples of child terms
shape triangular, lobed, concave, protruding into
position placement, location horizontal, anterior to
size thin, large, decreased height
structure porous, fused with
composition composed of, content ligamentous, cartilaginous
texture smooth, wrinkled
optical quality color, brightness
mass increased mass
quality of a solid flexible, hard
mobility mobile, immobile
closure open, closed
behavioral quality
count number, amount present, absent

Annotation Specificity

Annotations are made using the most specific term or post-composition possible for Entity and Quality. This may not be possible for some characters involving very complex phenotypes, particularly those describing shape variation. In these cases, annotations are made to 'attribute' level PATO terms (e.g., PATO: shape).

Character Annotation Examples

The following are examples of character types commonly encountered in the systematic literature and how we annotate them using the Entity-Quality (EQ) model in Phenex. A character state can often require multiple EQs to capture all of the anatomical details described by an author. For example, a state may describe “premaxillary teeth round and multicuspidate." This is represented with the following two phenotypes:

E: premaxillary tooth, Q: round
E: premaxillary tooth, Q: multicuspidate


Abbreviations: E = anatomical entity from Uberon; Q = Quality term from PATO, RE = related anatomical entity, C = count (numerical value).

1. Qualities of single physical entities

Many qualities in PATO apply only to single entities (e.g., 'shape,', 'count', 'open') without reference to a second, related entity (RE). Examples of qualities of single physical entities are given below. Other qualities are "relational" and must be used with a second, related entity (e.g., 'fused with'; more examples in #2). Finally, some qualities can be used either with or without a second entity (e.g., 'increased size').

1a. Shape

All shape terms apply only to single entities. Example: “sigmoid-shaped supraorbital bone” is annotated as:

E: supraorbital, Q: sigmoid

1b. Position

Some position terms apply only to single entities (see 2b. below for position terms applicable to two entities).

E: projection part_of frontal, Q: vertical

1c. Count

'Count' is used to record the number value(s) of an entity. Values for counts are recorded in the “Count" field (Note: due to a Phenex bug, the Count field only accepts integer values; ranges ("3-5") or symbols ("≥") must be recorded in the "Comment” field). Some examples:

E: vertebra, Q: count, Count: 33
E: vertebra, Q: count, Comment: 34-38
E: vertebra, Q: count, Comment: >38
E: vertebra, Q: count, Comment: ≥48

1d. Presence/Absence

PATO: present and absent are used to annotate variation in the presence of entities, e.g.:

E: pectoral fin, Q: present

(Technical note: The use of present and absent in curation is a curatorial shortcut to the more logically sound syntax discussed on the PATO wiki.  Presence annotations in Phenoscape are translated into this logically sound form prior to their addition in the Phenoscape KB.)

Inferred presence from annotation to other attributes. It is not necessary to annotate the presence of an entity if the character describes some other attribute regarding its features . For example, "frontal bone present and round" requires only one annotation: E: frontal bone Q: round because the presence of frontal bone is inferred by this annotation.

1e. Mobility

Skeletal entities are sometimes described as being mobile, meaning capable of movement, as opposed to immobile, or fixed in place. The PATO terms 'mobile' and 'immobile' are used in such cases:

E: maxilla, Q: mobile

1f. Composition

Composition qualities describe the types and quantities of a bearer entity's constituent subparts. For example, skeletal entities can be 'cartilaginous' or 'ossified'.

E: bone , Q: poorly ossified

Note: unlike its child terms, 'composition' can be used with related entities; see examples in the next section.

2. Qualities of related physical entities

Some phenotypes describe a state that exists between two entities. In these cases, relational qualities are used to relate the two entities. Examples of relational qualities include 'differetiated from', 'overlapped by', and 'fused with':

E: parietal bone, Q: fused with, RE: supraoccipital bone

Note: some qualities in PATO can be used with either single entities OR with two entities (for example, PATO: increased size). A partial list of PATO terms that require related entities are listed below in 2a and 2b.

2a. Positional qualities between two entities

The following are position qualities used to describe the position or orientation of an entity relative to another entity. Note that some positional qualities apply to single entities only (see 1b above).

  • anterior to
  • posterior to
  • diagonal to
  • extends to
  • basal to

2b. Structural qualities between two entities

  • attached to
  • in contact with
  • separated from. (Denotes that two entities are not touching. Typically used as the inverse of 'in contact with')
  • fused with
  • unfused from. (Can apply whether or not two elements are in contact with each other. Typically used as the inverse of 'fused with')

2c. Composition quality between two entities

Composition (synonym= composed of) can be used to relate an entity to its component related entities (ie., the subparts or entities that it is composed of); for example: the character "Lateral forebrain bundle composed of myelinated fibers" from Wiley and Johnson (#20) is annotated as:

E: lateral forebrain bundle, Q: composition, RE: myelinated nerve fiber

3. Size

There are various ways an author may describe or compare the size of a structure across taxa. These are summarized below:

3a. Relative size comparisons compare the size of two structures. For example, "frontal length greater than parietal length" is represented as:

E: frontal bone, Q: increased length, E2: parietal

3b. Size comparison across taxa. For example, a state describing "frontal large” is annotated as below. Note that the EQ does not require annotation to terms from a taxonomy ontology because the matrix saved in the Phenex file has a mapping from states to taxa.

E: frontal bone, Q: increased size

3c. Multiple dimensions of size may be described for a single structure. For example, an author may describe the frontal bone as having a "greater length relative to width". This requires post-composing the Quality with PATO: "length" and PATO:"width":

E: frontal bone, Q: length^increased_in_magnitude_relative_to(width^inheres_in(frontal bone)

We are currently annotating to this detailed level. A less detailed ("coarse") way to represent the above phenotype is:

E: frontal bone, Q: increased length, RE: frontal bone

3d. Series of relative sizes describes a range of sizes in more than two states. For example: "maxilla: (0) long, (1) medium, or (2) short". Choose the relevant size quality being compared, and place a number in the Count column indicating the proper sort order (e.g., 1 < 2 < 3... for short < medium < long ...). For "short":

E: maxilla, Q: length, Count: 1

3e. Size variation from a "normal" or "typical" state: For example: "femur size: (0) small, (1) typical size. State 1 does not imply imply that the femur is large (thus, PATO:‘increased size’ should not be used) but state 1 is distinguished from state 0 by NOT being small in size:

E: femur, Q: decreased size (state 0)
E: femur, Q: size not decreased size (state 1)

3f. Similarity in 'size' and 'shape' terms. Many aspects of size variation also relate to shape (and vice versa). For example, the terms PATO:"increased width" (with related synonym: "broad") and PATO:"broad" are separate terms that have different parent terms in the ontology, despite describing very similar phenotypes. "Increased width" has ‘size’ as its parent whereas "broad" has "shape" as its parent. By convention, we use "increased width" to indicated variation in the size dimension.

Technical note: Curatorial shortcuts are used in Phenex to represent size, in place of requiring curators to create the complex but semantically correct post-compositions otherwise required. In PATO, the terms "increased size" and "decreased size" (along with their children) are precomposed relative to "normal" (e.g., increased size has an increased_in relationship to "normal").  Because the "normal" phenotype does not apply to systematic characters, these annotations will be converted in the KB data loader to the correct form using the appropriate relations (increased_in_magnitude_relative_to, decreased_in_magnitude_relative_to, similar_in_magnitude_relative_to).

4. Biological process annotations

Some phenotypes describe variation related to biological processes (e.g., tooth development) and in such cases, terms are taken from the 'biological process' (GO:0008150) branch of the Gene Ontology. Biological process terms can only be used with ‘process quality’ (PATO:0001236) terms in PATO.

5. Sexually dimorphic phenotypes

Phenotypes specific to males or females are defined using the Uberon terms ‘male organism’ and ‘female organism’. For example, “Male cloacal folds, absent” is represented as

E: cloacal fold^part_of(male organism), Q: absent

6. Quality-modified entities and 'present'/'absent' annotations

Sometimes it is necessary to use a PATO term to modify an entity in post-composition. For example, an author may describe the "number of round teeth":

E: 'tooth' bearer_of some 'round'; Q: 'count'

In other cases, we will want to avoid creating a post-composition. For example, consider the character: "branched dorsal fin ray, present or absent". In this case, we interpret the character as describing the quality of the fin rays being 'branched' or 'unbranched', rather than present or absent:

E: dorsal fin ray; Q: branched
E: dorsal fin ray: Q: unbranched


Implications on reasoning.  It may appear that there are two similar ways to annotate such characters: for example, consider the presence/absence of white hair:
     E: 'hair' bearer_of some 'white'; Q: 'present'
This is different from:
     E: 'hair' Q: 'white'
The first annotation describes the presence of some white hair, whereas the second annotation describes *all* hair being white .  Generally, we want to use quality modified entities when annotating these types of complex EQs.

7. Bilaterally paired structures

Terms for the contralateral halves of bilaterally paired structures are created using the in_right_side_of and in_left_side_of relations in a post-composition, where the perspective is from the standpoint of the organism. For example:

E: frontal^in_right_side_of(whole organism), Q: fused with, RE: frontal^in_left_side_of(whole organism)

8. Complementary phenotypes ("negation")

The two states of a character are sometimes composed such that one state encompasses any possible phenotype except the one specified in the opposite state. We call this "complementary phenotypes". For example consider the following character: "Opercle: 0), round; 1), not round". State 1 describes a phenotype that can be any shape except 'round'. This is represented in EQ as follows:

E: opercle, Q: round [state 0]
E: opercle, Q: shape^not(round) [state 1]

For State 1, we created a postcomposition for the quality, choosing a meaningful genus term [use the attribute parent term from PATO, see diagram above] and using the "not" relation.

This convention also applies to variation from a 'normal', 'average', or 'typical' state (See 3e above for size examples).

9. Singular vs. Plural Entities

Terms names given are in the singular form (e.g., 'basihyal tooth' rather than 'basihyal teeth') rather than the plural, primarily to avoid ambiguity in the meaning of term names. A set can also be named to represent a collection of similar or related entities (e.g., 'infraorbital series' rather than 'infraorbitals'). For the character "teeth absent on fifth ceratobranchials", the following EQ applies:

E: ceratobranchial 5 tooth, Q: absent

10. Coloration and color pattern phenotypes

Phenotypes involving coloration (e.g., brown, black) are annotated with PATO: color qualities. Likewise, color patterns can be annotated with PATO terms such as 'blotchy' or 'banded'. For example:

E: trunk, Q: yellow
E: caudal fin, Q: banded

Variation in body markings are annotated using the appropriate terms from Uberon, such as 'melanophore stripe' or 'melanophore spot':

E: melanophore stripe part_of dorsal fin, Q: black

11. Polymorphic state descriptions

Variability in some aspect of a structure is sometimes described by authors within a single state. For example, an author may describe "infraorbital 5, reduced in size or absent"; to capture the variability in presence and size of this entity, we create two annotations for the state:

E: infraorbital 5, Q: decreased size
E: infraorbital 5, Q: absent

Another example may describe variation in shape of a structure, such as:

E: infraorbital 3, Q: square
E: infraorbital 3, Q: round

12. Use of skeletal terms (bone, cartilage, skeletal element)

Authors sometimes refer to endochondral structures without specifying whether the structure is “bone” or “cartilage.” For example, the convention for a term like “epibranchial 2” or “basibranchial” is that it is composed of bone and when composed of cartilage an author will say “epibranchial 2 cartilage” or “basibranchial cartilage”. However, this is not universally followed and a curator must read the character description and examine associated text and figures to ascertain this. If after reviewing the publication it is still not clear, then the curator can use the “element” term for the structure. In general, the “element” terms should be used sparingly, and only when an author does not indicate whether a structure (e.g. “epibranchial”) is composed of cartilage or bone.

Note: in paleontological studies, authors may describe an element as "unossified", which is interpreted as the absence of the bone element (see example 7). However, if the matrix of a paleo paper contains extant taxa, ossified for extant taxa means that the element is cartilaginous.

The following are a series of examples demonstrating the use of bone, cartilage, and element terms.

Example 1

Epibranchial 1 bone: (0) present

E: epibranchial 1 bone, Q: present

Epibranchial 1 bone: (1) absent

E: epibranchial 1 bone, Q: absent

Example 2

  • Epibranchial 1: (0) present and ossified.
E: epibranchial 1 bone, Q: present

(Note that the annotation "epibranchial 1 cartilage, absent" is not needed)

  • Epibranchial 1: (1) present and cartilaginous
E: epibranchial 1 cartilage, Q: present

(Note that the annotation "epibranchial 1 bone, absent" is not needed)

  • Epibranchial 1: (2) absent
E: epibranchial 1 cartilage, Q: absent
E: epibranchial 1 bone, Q: absent

The curator should use both the cartilage and bone terms to annotate state 2 because the author clearly differentiates between the two.

Example 3

Epibranchial 1 (0) present, (0) absent. After careful reading of associated text in the publication, the curator cannot conclude that the author refers to bone or cartilage, and therefore uses "element" term:

E: epibranchial 1 element, Q: present 
E: epibranchial 1 element, Q: absent

Example 4

Epibranchial 1: (0) triangular. After careful reading of associated text in the publication, the curator cannot conclude that the author refers to bone or cartilage, and therefore uses "element" term:

E: epibranchial 1 element, Q: shape

Example 5

Epibranchial number: (0) 3; (1) 4. After careful reading of associated text in the publication, the curator cannot conclude that the author refers to bone or cartilage, and therefore uses "element" term:

E: epibranchial element, Q: Count 3 (State 0)
E: epibranchial element, Q: Count 3 (State 1)

Example 6 -- Convention used in paleontology

The convention in paleo studies is to use "unossified" when no trace of the skeletal element is present. It does not imply that cartilage is present or absent. For example:

Pubis: (0) unossified, (1) ossified

E: pubis (is_a bone), Q: absent
E: pubis (is_a bone), Q: present

Example 7 --  'Presence of dermal elements

Cleithrum: (0) unossified; (1) ossified

E: cleithrum, Q: absent (State 0)
E: cleithrum, Q: present (State 1)

Higher-Level Taxon Annotations

Authors sometimes describe features for higher-level taxa rather than species, and this can present challenges for EQ annotation (see discussion in Jackson et al., in prep). We developed the following guidelines to handle these cases:

  • In cases where authors describe features for higher-level taxa but do not specify the species or subgroups to which the taxonomic grouping applies, we annotate only to the specific higher-level taxon stated by the author. For example, for a character stating “preopercle triangular in Osteoglossomorpha”, only ‘Osteoglossomorpha' is annotated with this character and species-level annotations are not applied. Had the author indicated the family membership in this higher-level group, we would apply annotations to the containing families only, and not to the species which were not specified.
  • Authors may also refer to higher-level taxa not placed in a classification (e.g., Holacanthopterygii in Wiley and Johnson (2010)) and for which containing taxa was not specified. Because of insufficient information about placement and containing taxa, we don’t record annotations to these taxa.
  • Higher-level taxa in a publication may in some cases differ from higher-level groupings in the VTO. In such cases, we annotate to the containing taxa as intended in the publication. For example, some taxa included in Osmeridae in Wiley and Johnson (2010) are elevated to their own family (Plecoglossidae) in VTO; we ensure that the characters are applied to the relevant taxa within the family Plecoglossidae in VTO.
  • In cases where a higher-level taxon is polymorphic for a character, we investigate the literature to determine the appropriate species coding. If this information is not available or can’t be traced in the literature to particular species, we do not apply the coding to the containing species

Lack of Alternative Character State Descriptions

As discussed in Jackson et al. (in prep), authors may sometimes describe a feature or character without specifying the alternative phenotype or character state. For example, an author may describe the "pelvic fin absent" in one taxon, and not explicitly state the alternative ("pelvic fin present") which might apply to all other taxa. We annotate only the asserted state and never an implied alternative state.

Interpreting Authors' Text

Authors may sometimes describe characters with words that have exact matches to ontology terms, but these exact term matches may not chosen by a curator for various reasons.  For example, a character may describe: “Clavicle shape of ventromedial plate: narrow, deep, intermediate”.  “Deep” has an exact match in PATO but given the context of the other states and the curator’s knowledge of this particular anatomy, the curator decided that “deep” refers to an increase in width and therefore chose PATO: increased width to annotate this state.

Another example relates to the PATO terms for continuous, discontinuous and offset quality.  These are children of process quality in PATO and therefore should not be used in the context of anatomy. However, authors sometimes use these terms to describe qualities of margins (continuous, discontinuous) and position (offset).  Other PATO terms are more appropriate for these annotations (e.g., straight, offset).


Creating or refining terms by post-composition

Often times the need will arise for a new term during annotation. New terms can either be requested using the ORB in Phenex and later formally added to the ontology (pre-composed terms), or they can be composed "on-the-fly" by combining existing ontology terms (post-composed terms). Generally, we add terms to the ontology for entities that are described in multiple publications. We generally create a post-composed term in cases where entities are not formally named in a publication, or only described in the context of a single publication. This is the case when annotating the presence of projections on bones. We often will want to "post-compose" terms to prevent ontology "bloat".

Post-composed terms are created by combining existing terms, e.g., anatomical regions, margins, projections, and the specific structure from the anatomy ontology. They can be created in Phenex following the "genus-differentia" principle of defining terms, where one term serves as the genus, which is then differentiated using a relationship and a differentia term. Unlike pre-composed terms, post-composed terms do not have an ID, and hence are "anonymous." Therefore if the same post-composition is used multiple times, it has the same semantics, but not the same identity. For example, if one wants to assign multiple annotations to the same process of the lateral ethmoid in the same specimen, using post-composed terms does not allow the identity of the anatomical structure between the annotations to be inferred.

General rules about post-composing Entities or Qualities

There are numerous relations used in post-compositions, particularly for Entities (see Table below). However, Qualities have a restricted set of relations that can be used in post-composition. These include inheres_in, not, and size-related relations (see Table).

The order in which the terms are composed is important if the composition relationship is not symmetric (a relationship is symmetric iff A rel B <=> B rel A). Most relationships are not symmetric. As a general rule, choose the more general part as the genus, and then use the relationship and differentia to narrow down. For example, for "process of the lateral ethmoid" use "anatomical projection" as the genus, and use the relationship and differentia to narrow down which process of the many that are possible you mean, such as using part_of for the relationship and "lateral ethmoid" as the differentia (formally, the "anatomical projection that is part_of the lateral ethmoid").

Note that semantically, the post-composed term is equivalent to a pre-composed term, provided the pre-composed term has both the inheritance relationship and the cross-product relationship properly recorded. For example, "process of lateral ethmoid" is-a "anatomical projection", and "process of lateral ethmoid" part-of "lateral ethmoid".

Creating post-composition in Phenex

To post-compose a term (for example, "maxillary process") using Phenex, first type in the genus term 'anatomical projection' in the Entity field within the "Phenotypes" panel. Then open the Post-composition Editor box by right-clicking on the Entity cell (make sure that the entity cell is blue in color) :

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Now click on “Edit Post-composed Term.” The Editor box should now appear (see below), with 'anatomical projection' in the Genus field. The Genus is the feature of specific interest (varying feature in systematics). Click the “+” button to add a row in the table, type “part_of” in the relationship field, and type “maxilla” in the differentia field. Click OK.

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anatomical projection^part_of(maxilla)

Refining post-compositions using terms from the Spatial Ontology (BSPO)

The Spatial Ontology (BSPO) is used to post-compose terms related to the margins, surfaces, or regions of skeletal elements. For example, the entity “anterior process of the maxilla" is post-composed as follows:

anatomical projection^part_of(anterior region^part_of(maxilla))

This example is a type of "nested" post-composition that begins with 'anatomical projection' as the genus term, which is then related to its location on the maxilla: starting with the more general term (here, the "anterior region") as the genus, then refine it using a relationship and a differentia term (thus, anterior region that is part_of the "maxilla").

Use of terms for regions vs. sides in BSPO: Regions are defined as not having well-defined boundaries, unlike sides. For post-compositions, we usually annotate using region terms because the placement of processes on skeletal elements aren't described with very much detail. For example, if an author describes the dorsal process of some bone, then we post-compose "anatomical projection part of dorsal region part of bone".  This also applies to an author describing the shape of a portion of a skeletal element.

To create post-compositions using BSPO in Phenex, right click the Entity field to bring up the post-composition editor box.  Type “anatomical projection” and right-click the field to open the Post-Composition Editor box. Within this box, Click the + button to add relationship = "part_of" and differentia = "anterior region". Right click on the differentia field to open another Post-Composition Editor box to add second post-composed term for "anterior margin of maxilla" (see below). Click the OK button after you have filled out the genus and differentia for this nested composition.

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Multiple differentia terms and nesting in post-composition

Post-compositions can contain multiple differentia terms that are either nested:

anatomical project^part_of(anterior region^part_of(maxilla))

or not nested:

joint^connects(metapterygoid)^connects(hyomandibula)

For nested post-compositions, the order of nested terms is important (e.g., maxilla^part_of(anterior region^part-of(anatomical projection)) is incorrect), as is the nesting itself (e.g., anatomical projection^part_of(anterior region)^part_of(maxilla) is incorrect).

Some post-compositions with multiple differentia do not require nesting (see discussion of joint post-compositions).

Creating "joint" terms on-the-fly

Joints are defined in Uberon according to the skeletal elements that participate in the joint. The connects relation is used to relate skeletal elements to skeletal joints.  We post-compose joint terms that are not likely to be used repeatedly for annotation. To post-compose a joint, for example the "metapterygoid-hyomandibular joint", use the post-composition editor box by right-clicking on the Entity field and compose the following term.  Note that this expression is not nested.

skeletal joint^connects(metapterygoid)^connects (hyomandibula)

Relations used for post-compositions

Relation
Category Design  Pattern   
Examples
anteriorly connected to connectedness E anteriorly_connected_to E
'head' and (anteriorly_connected_to some 'neck')
attaches_to connectedness E attaches_to E
Used primarily to represent attachment of teeth, scales, and ligaments. Examples:

'tooth' and (attaches_to some 'maxilla')

'scale' and (attaches_to some 'caudal fin')

NOTE: Teeth and scales are not always related to structures by attaches_to; they can also be part_of an anatomical structure, e.g., 'tooth' part_of (some 'dentition') or 'scale' (part_of some 'scale row')

connected_to
connectedness E connected_to E

Used between entities of the same general type. For example, cities, bones, neurons

'sternum' and (connected_to some 'rib')

connects
connectedness
E connects E
Used between the entity facilitating the connection and each entity on either side. For example, roads, joints, axons + synapses.This is used to post-compose terms for joints. For example, metapterygoid-hyomandibular joint is post-composed as:
'joint' and (connects some 'metapterygoid') and (connects some 'hyomandibula')
distally_connected_to connectedness E distally_connected_to E
'leg' and (distally_connected_to some 'pes')
posteriorly connected to connectedness E posteriorly_connected_to E

'neck' and (posteriorly connected to some 'trunk')
proximally connected to connectedness E proximally_connected_to E
'forelimb skeleton' and (proximally_connected_to some 'pectoral girdle skeleton')
develops_from development E develops_from E
'endochondral bone' and (develops_from some 'cartilage element')
has_muscle_insertion muscle attachment 'muscle X' has_muscle_insertion E
'triceps brachii' and (has_muscle_insertion some 'olecranon')
has_muscle_origin muscle attachment 'muscle X' has_muscle_origin E
'triceps brachii' and (has_muscle_origin some 'humerus')
serves_ as _attachment _site_ for muscle attachment E serves_as_attachment_site_for muscle X

anatomical projection^serves_as_attachment_site_for(triceps brachii)^part_of(coracoid bone)

Note: this post-composition is not nested

has_part mereological E has_part E
'premaxilla' and (has_part some 'anatomical projection')
part_of mereological E part_of E
'anatomical projection' and (part_of some 'premaxilla')
bearer_of
quality E bearer_of Q

tooth' and (bearer_of some 'tapered')

Note: bearer_of is most likely used as a modifier of an Entity term, not used in Quality field

inheres_in quality Q inheres_in E
'length' and (inheres_in some 'coracoid bone')
decreased_in_magnitude_relative_to
size Q decreased_in_magnitude_relative_to Q
[1]E: frontal bone, Q: length^decreased_in_magnitude_relative_to(width^inheres_in(frontal bone))
increased_in_magnitude_relative_to
size
Q increased_in_magnitude_relative_to Q
[1]E: frontal bone, Q: length^increased_in_magnitude_relative_to(width^inheres_in(frontal bone))
similar_in_magnitude_relative_to
size Q similar_in_magnitude_relative_to Q
[1]E: frontal bone, Q: length^similar_in_magnitude_relative_to(width^inheres_in(frontal bone))
adjacent_to spatial E adjacent_to E

anterior_to spatial E anterior_to E
'basal fulcrum' and (anterior_to some 'dorsal fin')
deep_to spatial E deep_to E

distal_to spatial E distal_to E
'radial' and (distal_to some 'ulnare')
dorsal_to spatial E dorsal_to E
'anatomical region' and (dorsal_to some (glenoid fossa and (part_of some 'scapula')
encloses spatial E encloses E

extends_from spatial E extends_from E
'anatomical surface' and (extends_from some 'parietal bone')
extends_to spatial E extends_to E
'anatomical surface' and (extends_to some 'frontal bone')
has_cross_section spatial

in_anterior_side_of spatial E in_anterior_side_of E

in_distal_side_of spatial E in_distal_side_of E

in_lateral_side_of spatial E in_lateral_side_of E

in_left_side_of spatial E in_left_side_of E
'frontal bone' and (in_left_side_of some 'body')
in_median_plane_of spatial E in_median_plane_of E

in_posterior_side_of spatial E in_posterior_side_of E

in_proximal_side_of spatial E in_proximal_side_of E

in_right_side_of spatial E in_right_side_of E
 'frontal bone' and (in_right_side_of some 'body')




posterior_to spatial E posterior_to E

proximal_to spatial E proximal_to E

surrounded_by spatial E surrounded_by E

surrounds spatial E surrounds E
'anatomical projection' and (surrounds some 'popliteal area')
ventral_to spatial E ventral_to E

vicinity_of spatial E vicinity_of E

not
Q not Q
Used to represent complementary phenotypes, for example:

'shape' and (not some 'round')

Evidence Codes

**Note: Does not apply to current curation

We record phenotype descriptions as properties of species, and annotations are assigned one of three evidence codes based on the level of evidence given by an author for phenotype observations. These specimen evidence codes are in an Evidence Codes Ontology that was developed by the broader biological community (see http://obofoundry.org/cgi-bin/detail.cgi?id=evidence_code). We have added evidence codes to this ontology, and we use the following in order below from strong to weak evidence.

Inferred from Voucher Specimen (IVS)

Used when an annotation is made on the basis of a phenotype description for a species or higher level group that is given by an author who explicitly references an observation of a voucher specimen(s). Voucher specimens are defined as those specimens with permanent museum catalog numbers. Thus it would be possible for a person to examine this particular specimen and observe the annotated phenotype.

  • Note: if there is a matrix in the paper, the IVS evidence code is assigned to all annotations linked to the character list.

Traceable Author Statement (TAS)

The TAS evidence code covers author statements that are attributed to a cited source. Typically this type of information comes from review articles. Material from the introductions and discussion sections of non-review papers may also be suitable if another reference is cited as the source of experimental work or analysis. When annotating with this code the curator should use caution and be aware that authors often cite papers dealing with experiments that were performed in organisms different from the one being discussed in the paper at hand. Thus a problem with the TAS code is that it may turn out from following up the references in the paper that no experiments were performed on the gene in the organism actually being characterized in the primary paper. For this reason we recommend (when time and resources allow) that curators track down the cited paper and annotate directly from the experimental paper using the appropriate experimental evidence code. When this is not possible and it is necessary to annotate from reviews, the TAS code is the appropriate code to use for statements that are associated with a cited reference. Once an annotation has been made to a given term using an experimental evidence code, we recommend removing any annotations made to the same term using the TAS evidence code.

Nontraceable Author Statement (NAS)

The NAS evidence code should be used in all cases where the author makes a statement that a curator wants to capture but for which there are neither results presented nor a specific reference cited in the source used to make the annotation. The source of the information may be peer reviewed papers, textbooks, database records or vouchered specimens.