33 Developmental Genetics

Question 1

development

Answer 1

• regulated growth resulting from interaction of genome, cytoplasm, and environmental
• programmed sequence of events
• usually not reversible

Question 2

differentiation

Answer 2

• aspect of development

- forming of different types of cells, organs, etc, through specific regulation of gene expression

Question 3

The fact that we can clone animals shows…

Answer 3

that adult differentiated cells retain a complete set of genetic information

Question 4

pattern formation

Answer 4

• early in animal development

- establishment of axes of the embryo - dorsal v ventral

Question 5

advantages of drosophila

Answer 5

• small
• short generation time
• large egg production of each female
• easy to culture in lab
• small genome
• large chromosomes
• many mutations

Question 6

contributions of drosophila to genetics

Answer 6

• basic principles of heredity including sex-linked inheritance, multiple alleles, epistasis, gene mapping, etc
• mutation research
• chromosome variation an behavior
• population genetics
• genetic control of pattern formation
• behavioral genetics

Question 7

basic drosophila life cycle

Answer 7

egg, larva, and pupa then adult

even though undergoes complete metamorphosis in pupa stage, the developmental trajectories set up in early embryonic development carries through to the adult

Question 8

classes of drosophila genes

Answer 8

• maternal genes
• segmentation genes
• homeotic genes

Question 9

maternal genes

Answer 9

Egg Polarity Genes

- establish anterior/posterior polarity and dorsal/ventral polarity

Question 10

when are maternal genes transcribed and translated

Answer 10

transcribed during egg development

translated after fertilization

Question 11

segmentation genes

Answer 11

affect the number and polarity of segments

Question 12

segmentation genes include…

Answer 12

gap genes
pair rule genes
segment polarity genes

Question 13

homeotic genes

Answer 13

determine the identity of each segment

Question 14

dorsal gene

Answer 14

maternal gene

determines the dorsal/ventral axis

Question 15

in what cells does the dorsal gene work?

Answer 15

transcribed and translated in the ovary so the egg contains the mRNA and protein throughout the egg and embryo stages

Question 16

describe the action of the dorsal gene

Answer 16

• as the cells migrate to periphery of embryo, the protein is distributed to the nuclei of the cells that will be on ventral side
• stays in cytoplasm of those on the dorsal side

acts as a transcription factor which must be located in the nucleus, and therefore acts as TF in ventral cells regulating genes important in development

lack of dorsal protein in dorsal nuclei allow genes for dorsal structure development to be expressed

Question 17

on ventral side, dorsal protein induces expression of genes needed for…

Answer 17

gastrulation

Question 18

bicoid mRNA is anchored at…

Answer 18

anterior end of embryo and produces protein which diffuses from anterior end making gradient strong at anterior end and gradually decreasing across embryo

Question 19

nanos mRNA is anchored at…

Answer 19

posterior end of embryo and produces a protein that is strongest at posterior end and diffuses to lower concentration at anterior end

Question 20

anterior/posterior asix is determined by…

Answer 20

bicoid and nonos gene

Question 21

bicoid and nanos are what type of gene?

Answer 21

maternal

the mother’s nuclear genotype determines the progeny phenotype

Question 22

bcd mutation

Answer 22

defective bicoid gene

missing anterior structures

Question 23

bicoid and nanos regulate…

Answer 23

zygotic translation of maternal genes hunchback and caudal

Question 24

hunchback and caudal mRNA are distributed…

Answer 24

uniformly throughout the oocyte

Question 25

bicoid protein in...

Answer 25

represses caudal mRNA translation by binding to caudal mRNA 3'UTF stimulates hunchback expression by binding to a transcription factor binding site upstream of hunchback allowing mRNA production

Question 26

caudal protein acts as...

Answer 26

transcription factor to regulate genes for different of the posterior part of the embryo

Question 27

hunchback protein acts as...

Answer 27

transcription factor to regulate genes for differentiation in the anterior of the embryo

Question 28

nanos protein...

Answer 28

inhibits hunchback translation by degrading its mRNA causing an anterior-posterior gradient of hunchback protein

Question 29

we expect more of the effects of nanos to occur...

Answer 29

at the posterior end of the embryo

Question 30

mRNA at stable level across the embryo

Answer 30

hunchback and caudal

Question 31

mRNA localized at anterior end

Answer 31

bicoid

Question 32

mRNA localized at posterior end

Answer 32

nanos

Question 33

4 protein gradients in early drosophila embryo

Answer 33

1. a-p of bicoid 2. a-p of hunchback 3. p-a of nanons 4. p-a of caudal

Question 34

segmentation genes are transcribed...

Answer 34

after fertilization so there is no maternal affects

Question 35

what regulates segmentation genes

Answer 35

bicoid/nanos gradient

Question 36

gap genes

Answer 36

divide embryo into broad segments

Question 37

pair-rule genes

Answer 37

affect same part of pattern in every other segment

Question 38

segment polarity genes

Answer 38

affect anterior/posterior polarity of each segment

Question 39

gap genes regulate ___ which regulate ___

Answer 39

pair-rule | segment polarity

Question 40

Kirps

Answer 40

one type of gap gene

Question 41

Even-skipped

Answer 41

one type of pair rule gene

Question 42

Engrailed

Answer 42

one type of segment polarity gene

Question 43

Hunchback regulates transcription of ___

Answer 43

kirps mRNA

Question 44

Kirps protein regulates transcription of

Answer 44

even skipped mRNA

Question 45

Even-skipped protein regulates transcriptin of

Answer 45

engrailed mRNA

Question 46

gene clusters of homeotic genes

Answer 46

antennapedia complex | bithorax complex

Question 47

antennapedia complex

Answer 47

homeotic gene | 5 genes that specify head and anterior thorax

Question 48

bithorax complex

Answer 48

homeotic gene | 3 genes that specify posterior thorax and abdomen

Question 49

homeotic genes are...

Answer 49

on the same chromosome and in order from anterior to posterior

Question 50

each homeotic gene is turned on...

Answer 50

in specific segments based on the concentration of earlier gene products

Question 51

antennapedia mutation

Answer 51

mutation of homeotic gene | occurs in tissues that were to become antenna causing substation of legs in their place

Question 52

ultrabithorax mutation

Answer 52

deletion of Ubx in T3 cuasing T2 segment to extent into T3 producing second thorax wing struction out of what would usually be haltere of fly

Question 53

homeobox

Answer 53

common DNA sequences of homeotic genes found in most animal phyla

Question 54

homeodomain

Answer 54

region of protein formed from the homeobox DNA | 60 aa long

Question 55

proteins with homeodomain are...

Answer 55

DNA binding proteins | they act as transcription factors

Question 56

Hox genes

Answer 56

genes similar to drosophila homeotic genes found in mammals

Question 57

C. elegans advantages

Answer 57

- small size - short generation time - many eggs per female - easy to culture in lab - simple body plan - transparent - capable of self-fertilization or crossing

Question 58

C. elegans contribution

Answer 58

- genetics of development - apoptosis - genetic control of behavior - aging

Question 59

studies of cell death in c.elegans led to...

Answer 59

understanding of conserved cell death pathway present in other organisms

Question 60

important features of c.elegans for its contributions to genetics

Answer 60

- general tissue lineage - the lineage of all 959 cells in adult is known - able to track all cells differentiation - the organism is transparent so we can use marker to determine where a particular gene product is produced

Question 61

apoptosis

Answer 61

programmed cell death

Question 62

why is apoptosis important for development

Answer 62

ex. mammals start off with webbed fingers. the extra tissue must be removed and joints created so some cells must die

Question 63

advantages of Arabidopsis thaliana

Answer 63

- small size - short generation time - large seed production - can be grown in lab - small genome for a plant - many variations available - self-fertilization and outcrosses

Question 64

contributions of Arabidopsis thaliana

Answer 64

- plant-genome organization - gene regulation - genetics of plant development - genetics of flowering

Question 65

structure of arabidopsis

Answer 65

4 concentric whorls - outer with 4 sepals - next with 4 petals - next with 6 stamen - inner with 2 fused carpels which look like one structure

Question 66

outer whorl

Answer 66

``` 4 sepals A class gene ```

Question 67

whorl 2

Answer 67

``` 4 petals A and B class genes ```

Question 68

whorl 3

Answer 68

``` 6 stamen B and C class genes ```

Question 69

whorl 4

Answer 69

``` 2 fused carpals C class genes ```

Question 70

a class genes control the...

Answer 70

switch to initiate flower development

Question 71

C class important in...

Answer 71

limiting the number of whorls to 4

Question 72

A class mutant

Answer 72

whorl 1 and 2 are mutant | whorl 3 and 4 are typical

Question 73

B class mutant

Answer 73

whorl 2 and 3 mutant | whorl 1 and 2 are typical

Question 74

C class mutant

Answer 74

whorl 1 and 2 typical | whorl 3 and 4 are mutant

Question 75

agamous

Answer 75

c class gene that prevents more than 4 whorls

Question 76

FLC gene

Answer 76

suppresses flowering when on

Question 77

how is FLC turned on

Answer 77

acetylation | prevents flowering

Question 78

FLD gene

Answer 78

produces deacetylase enzyme that removes acetylation on the chromatin of FLC allowing flowering

Question 79

If FLC gene knocked out

Answer 79

flowering occur

Question 80

If FLD gene knocked out

Answer 80

flowering prevented

Question 81

If both FLD and FLC knocked out

Answer 81

flowering occurs