Difference between revisions of "Needs Analysis Workshop/Chalk talks"
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** ostariophysi most important group of freshwater fish | ** ostariophysi most important group of freshwater fish | ||
* '''Arhat Abzhanov''': | * '''Arhat Abzhanov''': | ||
| + | ** works on craniofacial evolution | ||
** drivers and evolution of cranial development | ** drivers and evolution of cranial development | ||
| − | ** beak development and diversification among Galapagos finches | + | ** variation; beak development and diversification (morphs) among Galapagos finches |
** comparative relationships of developmental pathways of interacting and regulatory genes | ** comparative relationships of developmental pathways of interacting and regulatory genes | ||
* '''Hans Hofman''': | * '''Hans Hofman''': | ||
| Line 12: | Line 13: | ||
** variation at the population and species level, such as ecology, biogeography, natural history, etc | ** variation at the population and species level, such as ecology, biogeography, natural history, etc | ||
** how to link these two through, for example, a data repository | ** how to link these two through, for example, a data repository | ||
| − | ** how to implement the ability for open-ended queries | + | ** how to implement the ability for open-ended queries (when we don't know what questions might be) |
** how to connect this to development time, plasticity, genotype/environment interactions | ** how to connect this to development time, plasticity, genotype/environment interactions | ||
* '''Toby Kellogg''': | * '''Toby Kellogg''': | ||
** grasses have about 10,000 species, e.g., rice, maize | ** grasses have about 10,000 species, e.g., rice, maize | ||
** which meristem-specific genes have been conserved or evolutionarily changed | ** which meristem-specific genes have been conserved or evolutionarily changed | ||
| − | ** challenge: how to get from a list of genes to the 3'UTR to use for in-situs for same or different species | + | ** challenge: how to get from a list of candidate genes (involved in floresence) to the 3'UTR to use for in-situs for same or different species? |
** designing primers for an entire clade based on a multiple alignment | ** designing primers for an entire clade based on a multiple alignment | ||
| − | ** automating the pipeline is major challenge | + | ** automating the pipeline is desire and major challenge |
* '''Austin Mast''': | * '''Austin Mast''': | ||
** MorphBank | ** MorphBank | ||
| + | ** Images provide greater information than what we can put into words | ||
** Slide-server interface | ** Slide-server interface | ||
** bulk annotation, 'tile' layout | ** bulk annotation, 'tile' layout | ||
| − | * '''Elizabeth | + | * '''Elizabeth Jockusch''': |
| − | ** beetle antennae: scape (1), pedicel (1), flagellum (typically 9 segments, but many exceptions) | + | ** beetle devo-evo; antennae divided into: scape (1), pedicel (1), flagellum (typically 9 segments, but many exceptions) |
** Tribolium: flagellum -> funicle and club, with variable number of segments | ** Tribolium: flagellum -> funicle and club, with variable number of segments | ||
| − | ** using RNAi to induce changes (phenotypes) in | + | ** candidate genes; using RNAi to induce changes (phenotypes) in 5 sp of Tribolium |
| − | ** e.g. reduced number of antenna segments, fusions of antenna segments, deletions | + | ** e.g. reduced number of antenna segments, why? e.g. fusions of antenna segments, deletions, failure to form? (empirical devo Q's) |
| − | ** how to code these phenotypes so one can ask for broader patterns, non-randomness | + | ** how to code these phenotypes so one can ask for broader patterns, non-randomness? |
* '''Chuck Kimmel''': | * '''Chuck Kimmel''': | ||
| − | ** role of cells in skeletal shape | + | ** Important: role of cells in forming skeletal shape |
** what are the activities of cells controlled by developmental genes | ** what are the activities of cells controlled by developmental genes | ||
** devo hypothesis: modular assembly? | ** devo hypothesis: modular assembly? | ||
** what is the broad nature of shape diversity (of, e.g., certain bones) | ** what is the broad nature of shape diversity (of, e.g., certain bones) | ||
** evo hyothesis: a missing module? | ** evo hyothesis: a missing module? | ||
| − | ** how could a database help with the shape transformation | + | ** how could a database help with the shape transformation; how to code cells and cell activity into process? Retrieval of hypotheses vs. facts |
* '''Günter Wagner''': | * '''Günter Wagner''': | ||
** evolution of limbs, gene duplication in teleosts, internal development of human | ** evolution of limbs, gene duplication in teleosts, internal development of human | ||
| Line 43: | Line 45: | ||
** what to compare to in organisms that don't have a particular cell type? e.g. myelinated cells comparing to lampreys (which have only glial cells) | ** what to compare to in organisms that don't have a particular cell type? e.g. myelinated cells comparing to lampreys (which have only glial cells) | ||
* '''David Stern''' (Tuesday): | * '''David Stern''' (Tuesday): | ||
| − | ** trait differences between Drosophila species | + | ** parsing out categories of morphological features (morphology, physiology, behavior, etc.); trait differences between Drosophila species |
| + | ** list of mutations that cause phenotypic differences | ||
| + | ** experimental evidence for the role of mutation | ||
** database of evolutionary mutations and their phenotypes fixed through drift or selection (EvolGen) | ** database of evolutionary mutations and their phenotypes fixed through drift or selection (EvolGen) | ||
* '''Hopi Hoekstra''' (Tuesday): | * '''Hopi Hoekstra''' (Tuesday): | ||
| + | ** genetic basis for variation | ||
| + | ** classify phenotypic variation (pigment, morphology (e.g. tail length), behavior) | ||
** Peromyscus trait evolution | ** Peromyscus trait evolution | ||
Revision as of 15:53, 25 September 2007
Notes from chalk talks:
- John Lundberg:
- ~30,000 teleost species
- ostariophysi most important group of freshwater fish
- Arhat Abzhanov:
- works on craniofacial evolution
- drivers and evolution of cranial development
- variation; beak development and diversification (morphs) among Galapagos finches
- comparative relationships of developmental pathways of interacting and regulatory genes
- Hans Hofman:
- individual variation in gene expression, pathways, physiology, anatomy, behaviour, etc
- variation at the population and species level, such as ecology, biogeography, natural history, etc
- how to link these two through, for example, a data repository
- how to implement the ability for open-ended queries (when we don't know what questions might be)
- how to connect this to development time, plasticity, genotype/environment interactions
- Toby Kellogg:
- grasses have about 10,000 species, e.g., rice, maize
- which meristem-specific genes have been conserved or evolutionarily changed
- challenge: how to get from a list of candidate genes (involved in floresence) to the 3'UTR to use for in-situs for same or different species?
- designing primers for an entire clade based on a multiple alignment
- automating the pipeline is desire and major challenge
- Austin Mast:
- MorphBank
- Images provide greater information than what we can put into words
- Slide-server interface
- bulk annotation, 'tile' layout
- Elizabeth Jockusch:
- beetle devo-evo; antennae divided into: scape (1), pedicel (1), flagellum (typically 9 segments, but many exceptions)
- Tribolium: flagellum -> funicle and club, with variable number of segments
- candidate genes; using RNAi to induce changes (phenotypes) in 5 sp of Tribolium
- e.g. reduced number of antenna segments, why? e.g. fusions of antenna segments, deletions, failure to form? (empirical devo Q's)
- how to code these phenotypes so one can ask for broader patterns, non-randomness?
- Chuck Kimmel:
- Important: role of cells in forming skeletal shape
- what are the activities of cells controlled by developmental genes
- devo hypothesis: modular assembly?
- what is the broad nature of shape diversity (of, e.g., certain bones)
- evo hyothesis: a missing module?
- how could a database help with the shape transformation; how to code cells and cell activity into process? Retrieval of hypotheses vs. facts
- Günter Wagner:
- evolution of limbs, gene duplication in teleosts, internal development of human
- following the genes to the taxa they lead to
- comparative cell morphology and cell physiology
- what to compare to in organisms that don't have a particular cell type? e.g. myelinated cells comparing to lampreys (which have only glial cells)
- David Stern (Tuesday):
- parsing out categories of morphological features (morphology, physiology, behavior, etc.); trait differences between Drosophila species
- list of mutations that cause phenotypic differences
- experimental evidence for the role of mutation
- database of evolutionary mutations and their phenotypes fixed through drift or selection (EvolGen)
- Hopi Hoekstra (Tuesday):
- genetic basis for variation
- classify phenotypic variation (pigment, morphology (e.g. tail length), behavior)
- Peromyscus trait evolution
