Test 1 Flashcards

Question 1

Q

What is the common name of Drosophila Melanogaster?

Answer

A

Fruit Fly

Question 2

Q

What is the common name of Coenorhabditis elegans?

Answer

A

Roundworm

Question 3

Q

What is the common name of Arabidopsis Thaliana?

Answer

A

Thale Crest

Question 4

Q

What is the common name of Mus Musculus?

Answer

A

House Mouse

Question 5

Q

What is the common name of Zea mays?

Question 6

Q

What is the common name of Neurospora Crassa

Answer

A

Bread Mold

Question 7

Q

What is the common name of Macaca Mulatta?

Answer

A

Rhesus Monkey

Question 8

Q

What is the common name of Xenopus Laevis?

Answer

A

African Clawed Frog

Question 9

Q

What is the common name of Rattus Norvegicus?

Question 10

Q

What is the common name for Danio Rerio?

Answer

A

Zebra Fish

Question 11

Q

What are characteristics of a good model organism?

Answer

A

Small Size
Controlled breeding- easy to breed to specific individuals
Raising-Easily raised in a laboratory setting without losing a lot of money
Biological Knowledge- the more we already know the better
Genome size- one we have already sequenced or know a lot about
Interesting, useful and unusual
Life cycle- Not a long generation time, something we can easily observe
Ethics- the closer the “model” gets to humans or having human like characteristics, the more problems society will have when it is being used for scientific research
Liablilities- the fewer the better

Question 12

Q

Gene (locus)

Answer

A

genetic factor that helps determine a trait, at the molecular level it is the sequence of DNA that is transcribed into an RNA molecule

Question 13

Q

Allele

Answer

A

One of two or more alternate forms of a gene

Question 14

Q

Chromatin

Answer

A

material found in the eukaryotic nucleus consisting of DNA and protein; another name fore the DNA after it is packaged to fit into the cell

Question 15

Q

Chromosome

Answer

A

Structure of DNA and associated proteins that carries one of the DNA molecules

Question 16

Q

Sister chromatids

Answer

A

The two chromosomes that are attached to the same centromere after replication

Question 17

Q

Homologous Chromosomes

Answer

A

chromosomes that have the same length, centromere positions and genetic loci, but can have different alleles

Question 18

Q

autosome

Answer

A

chromosomes that are the same in both sexes

Question 19

Q

Phenotype

Answer

A

what individual looks like

Question 20

Q

Locus

Answer

A

position of a gene on a chromosome (loci=plural form)

Question 21

Q

Genotype

Answer

A

allele composition usually represented by using letter abbreviations for alleles

Question 22

Q

Sex Chromosomes

Answer

A

differ between sexes

Question 23

Q

Stages of Mitosis and number of chromatids are attached to the centromere in each stage

Answer

A

Prophase (2)
Metaphase (2)
Anaphase (1)
Telophase (1)

resulting in two daughter cells

Question 24

Q

Cytokinesis

Answer

A

The division of the cytoplasm

Question 25

Q

What is the purpose of checkpoints in Mitosis

Answer

A

Key transition points in the cell cycle

Question 26

Q

What do functional Eukaryotic chromosomes contain?

Answer

A

Telomere
Centromere
At least one origin of replication

Question 27

Q

Substages of prophase I in Meiosis

Answer

A

Leptotene- chromosomes begin to coil up and chromosomes are visible

Zygotene- Homologous chromosomes synapse

Pachytene- Crossing over occurs between non sister chromatids of homologous chromosomes

Diplotene- homologous centromeres begin to repel from each other

Diakinesis- Terminalization of the chiasmata occurs as homologous centromeres continue to repel

Question 28

Q

Stages of Meiosis and number of chromatids are attached to the centromere in each stage

Answer

A

Prophase I (2)
Metaphase I (2)
Anaphase I (2)
Telophase I (2)
Prophase II (2)
Metaphase II (2)
Anaphase II (1)
Telophase II (1)

4 meiotic products

Question 29

Q

What are the roles of Cohesin and Shugoshin in mitosis and meiosis?

Answer

A

Cohesin- holds sister chromatids together in mitosis and meiosis. It also acts as chiasmata in meiosis to hold homologs together (different forms of this protein in mitosis and meiosis)

Shugoshin (guardian Spirit)- protects cohesio at the centromere in anaphase I of meiosis, but is degraded by anaphase II. This allows homologs to separate in anaphase I but keep the sister chromatids together.

Question 30

Q

Comparing Mitosis and Meiosis

Answer

A

Mitosis:

one division results in 2 daughter cells
Chromosome number per nucleus maintained in mitotic products
1 pre-mitotic S phase per cell division
Normally, no pairing of homologous chromosomes
Normally, no cross overs
Centromeres divide in anaphase
Conservative process: daughter cell genotypes are exactly like parent cell
Cell undergoing mitosis can be diploid or haploid

Meiosis

Two divisions result in 4 products of meiosis
chromosomes number halved in meiotic products
1 pre-meiotic S phase per meiotic process (2 divisions)
Homologous chromsomes synapse
Usually, at least one cross over per homologous pair
Centromeres do not divide in anaphase I but do divide in anaphase II
Promotes variation among products of meiosis
Works best with diploid cells

Question 31

Q

How does meiosis provide variation from generation to generation?

Answer

A

Crossing over allows each chromosome to contain some maternal and some paternally derived alleles
Suffling of maternal and paternal chromosomes (independent Assortment)

Question 32

Q

What studies are important in cancer research?

Answer

A

Cell cycle and regulation studies

Question 33

Q

Nondisjunction

Answer

A

mistakes in separation of chromosomes in meiosis

Question 34

Q

Karyotype

Answer

A

an organized array of an individuals chromosomes

Question 35

Q

When does nondisjunction occur and what happens?

Answer

A

can occur in either the first or second anaphase in meiosis

results in gametes with an abnormal number of chromosomes

Question 36

Q

Mendel’s law of Random Segregation

Answer

A

The two alleles of a locus do not blend or fuse
During gamete formation in a heterozygous individual, half of the gametes will receive one of the alleles and half of the gametes will receive the other allele
This results in an individual of a genotype Aa producing two types of gametes in equal frequency

Question 37

Q

Mendel’s law of independent assortment

Answer

A

During gamete formation in an individual who is heterozygous for two loci, the allele from the first locus that goes into a particular gamete will not influence which allele at the other locus goes into the gamete
This results in an individual of genotype AaBb producing four types of gametes in equal frequency: AB, Ab, aB, and ab

Question 38

Q

Product rule and its uses

Answer

A

probability of two or more independent events occurring together is the product of their probabilities.

clue “and” in a word problem
P(A and B)= P(A)* P(B)

Question 39

Q

Addition rule

Answer

A

the probability of two or more mutually exclusive events is the sum of their probabilities

Question 40

Q

characteristics of a homologous chromosome

Answer

A

same length, centromere position, banding pattern, and genetic loci

Question 41

Q

What are the two ways that meiosis producing 4 meiotic products?

Answer

A

1) reductional division- number of chromosomes in the daughter cell is half the number in the original cell (one of each homologous pair in each daughter cell)
2) Equational division- number of chromosomes at the beginning and end of the division cycle is the same, but the daughter cell only have one chromatid

Question 42

Q

What is simple mendelian inheritance?

Answer

A

one allele is completely dominant to the other (unless otherwise specified in the hypothesis
Random segregation occurs at all loci involved in the test
Independent assortment occurs between all loci involved in the test
Random Fertilization occurred in producing the individuals in the generation that is being tested

Question 43

Q

Protenor mode of sex determination is?

Answer

A

XX/XO- sexes have a different number of chromosomes
Females have 2 (XX) males have 1 (XO)
ex: grasshoppers, orthoptera

Question 44

Q

Lygaeus mode of sex determination?

Answer

A

XX/XY- sexes have same number of chromosomes, but one pair doesn’t look homologous

EX: fruit flies, us, mealworm

Question 45

Q

Heterogametic Sex

Question 46

Q

Homogametic sex

Question 47

Q

Hemizygous

Answer

A

one copy of the chromosome is present

crossing bbxbb you get all bb’s

Question 48

Q

Holandric

Answer

A

only found in the males

Question 49

Q

Sex determination in Drosophila Melanogaster (fruit flies)

Answer

A

Calvin Bridges: Genic Balance theory
-Sex is determined by the ration of the number of X chromosomes to the number of autosomal sets

Normal Femal= xx/2a ratio of 1.0
Normal Male=XY/2A ratio is .5
below.5= sterile male
in between .5-1= interest
1.5-= infertile femtal

Nondisjunction of the X chromosome results in gametes XX and 0. After fertilization, the following aneuploid types are formed. XXX, XXY, and XO, Y0 flies die.

Question 50

Q

What type of chromosome system does chicken birds and some fish use for sex determination?

Answer

A

ZZ= male
ZW= female

Question 51

Q

SRY GENE

Answer

A

CODES for testis determining factor (TDF) which triggers undifferentiated gonadal tissue to form testis

Question 52

Q

XO = what syndrome?

Answer

A

Turner Syndrome

Question 53

Q

XXY= what syndrome?

Answer

A

Klinefelter syndrome

Question 54

Q

XXX = what syndrome?

Answer

A

Female-variable expression (sterility problems)

Question 55

Q

XYY= what syndrome?

Answer

A

Male- nondisjunction of Y

Question 56

Q

Barr Body

Answer

A

inactivated X chromosome

Question 57

Q

How many Barr Bodies are in a:
Normal Female
Normale Male
Turner Female
Klinefelter male

Question 58

Q

What does a diamond mean in a pedigree?

Answer

A

Unknown Sex

Question 59

Q

What sex is a square?

Question 60

Q

What sex is a circle?

Question 61

Q

Characteristics of autosomal recessive trait?

Answer

A

usually appears in both sexes with equal frequency
tends to skip generations
affected offspring are usually born in unaffected parents
When both parents are heterozygous, approximately one-fourth of the offspring will be affected
Appears more frequently among the children of consanguine marriages

Question 62

Q

Characteristics of autosomal dominant trait?

Answer

A

usually appears in both sexes with equal frequency
both sexes transmit the trait to their offspring
does not skip generations
Affected spring break must have an affected person unless they possess a new mutation
when one parent is affected (heterozygous) and the other parent is unaffected, approximately half of the offspring will be affected
Unaffected parents do not transmit the trait

Question 63

Q

Characteristics of X-linked recessive trait?

Answer

A

usually more males than females are affected
affected sons are usually born to unaffected mothers; thus the trait skips generations
approximately half of a carrier (heterozygous) mothers sons are affected
never passed from father to son
all daughters of affected fathers are carriers

Question 64

Q

Characteristics of X-linked dominant trait?

Answer

A

both males and females are usually unaffected; often more females than males are affected
does not skip generations. affected sons have an affected mother; affected daughters must have either an affected mother or an affected father
affected fathers pass the trait on to all their daughters
affected mothers (if heterozygous) will pass the trait on to half of their sons and half of their daughters

Answer 58

A

only males are affected
passed from father to all sons
does not skip generations

Answer 59

A

a mutation on the X chromosome the acts only in XY individuals to nullify the effects of the Y chromosome

Answer 60

A

Diagnosis/ Genetics/Inheritance of the disorder
Symptoms and treatment options
Social and psychological aspects of managing the disorder
Risks/Likelihood/ of having a child with a disorder
Arranging for genetic testing
assisting with counseling and finding support groups to help patients and families cope with stress
NONDIRECTIVE- try not to tell people what to do but to inform them on info

Answer 61

A

X^(hC)Y for males

X^(Hc)X^(Hc) for females

Answer 62

A

a person knows of a genetic disease in the family
a couple has given birth to a child with a genetic disease, birth defect, or chromosomal abnormality
a couple has a child who is mentally retarded or has a close relative who is mentally retarded
an older woman becomes pregnant or wants to become pregnant. There is a disagreement about the age at which a prospective mother who has no other risk factor should seek genetic counseling; many experts suggest that nay prospective mother age 35 or older should seek genetic counseling
Husband and wife are closely related
A couple experiences difficulties achieving a successful pregnancy
A pregnant woman is concerned about exposure to an environmental sub stand (drug chemical or virus) that causes birth defects
a couple needs assistance in interpreting the result of a prenatal or other test
both prospective parents are known carriers for a recessive genetic disease

Answer 63

A

Ultrasound
Amniocentesis
CVS
Fetal Blood Sampling (needle into umbilical cord)
Maternal blood screening tests
Preimplantation Genetic Diagnosis (in conjunction with in virto fertilization)

Answer 64

A

A blood sample is taken from a heel prick just after birth

-if you catch early on some intervention can have higher quality of life

Answer 65

A

Genetic Information Nondiscrimination Act (GINA)- health insurance companies and employers cannot discriminate based on the results of genetic tests, nor can they require genetic testing

Answer 66

A

one allelic form is expressed (the dominant form) and one is not seen (recessive form)

Answer 67

A

interaction between alleles

Answer 68

A

phenotype of the heterozygote is intermediate between phenotypes of the two homozygotes

Answer 69

A

two copies of the allele are required to result in death of the individual

Answer 70

A

death occurs if an individual has only one copy of the allele. Only see if individual survives long enough for phenotypes to be seen and only passed on to progeny if individual surveys to reproduction. (EX: huntington’s Disease)

Answer 71

A

Increasing severity or earlier age of onset as trait is passed from one generation to generation

Answer 72

A

more than two forms of the same gene each capable of producing a different phenotype

Answer 73

A

the percent of individuals of a given genotype that show some degree of expression of that genotype

Answer 74

A

The range of expression of a genotype

Answer 75

A

modifying genes
enviromental effecting including
location on the chromosome
temp
nutrition
light
imprinting

Answer 76

A

one gene has an effect on several seemingly unrelated aspects of an individuals phenotype (one gene affects the phenotype of several unrelated traits)

Answer 77

A

suppressed gene

Answer 78

A

gene that masks the action of another gene

Answer 79

A

expression of alleles at one locus masks or modifies the expression of another alleles at another locus

interaction between 2 different genes, not interaction between alleles at one locus

Answer 80

A

the homozygous recessive condition at one locus masks or modifies the expression of alleles at the second locus

Answer 81

A

Dominant allele at one locus masks or modifies the expression of alleles at a second locus

Answer 82

A

identical phenotypes are produced by both homozygous recessive genotypes so a different phenotype is produced only there is at least one dominant alleles at each locus

Answer 83

A

Having at least one dominant allele at either locus results in the same phenotype. The different phenotype is produced when the homozygous recessive occurs at both loci

Answer 84

A

two genes results in the same phenotype if a dominant allele is present at only one of the two loci. The interaction between dominant alleles at both loci results in a second phenotype and the homozygous recessive condition results in a third phenotype.

Answer 85

A

Dominant at one locus and/or homozygous recessive at the other locus results in one phenotype

Answer 86

A

Epistasis- is the interaction between products of different genes

Dominance- is the interaction between different alleles at a particular gene

Answer 87

A

individuals who are genotypes hh do not make the H substance and cannot produce functional A and B blood antigens. Their blood type is functionally Type O even though this may not agree with their genotype at the ABO locus.

Answer 88

A

Autosomal characteristic that is expressed in only one sex or the other

Answer 89

A

autosomal trait that can be expressed in either sex but is more frequent in one sex than in the other

Answer 90

A

The phenotype of the offspring is determined by the mother’s genotype and not its own genotype

Answer 91

A

Genes are located on mitochondria or chloroplast DNA and generally are passed from only maternal parent

Answer 92

A

Happens in Bees, wasps, hymenoptera

appears that males are haploid and females are diploid.
Females must be heterozygous for a single multiple allele locus

EX: mate S^aS^b x S^c

Progeny S^aS^c(female), S^bS^c(female), S^a (male), S^b (male)

Answer 93

A

Crepidula fornicata- a marine mollusk commonly known as the slipper Limpet
-live in stacks
-Males are on top and females are on bottom
-Sex can change during the life of the limpet
example of sequential hermaphorditism

Answer 94

A

each animal can be both male and female, but not at the same time

Answer 95

A

Chlamydonmonas

mating occurs between +/- isogametes

Answer 96

A

Normal XY male

Answer 97

A

XY female

Answer 98

A

inactivation of an X chromosome occurs randomly in somatic cells at some point in development. Once inactivated, all progeny cells have the same X inactivated. The inactivated X is called BARR BODY

This means that females are a mosaic for traits not eh X chromsome

Answer 99

A

phenotype of heterozygote is intermediate between homozygotes

mating purple and white
(half of the progeny is violet)

Answer 100

A

Heterozygote expresses both alleles as distinct gene products

Answer 101

A

an environmental agent mimics a genetic condition

Answer 102

A

EX: eyeless flies in Drosophila melanogaster can be due to the genotype ee. This condition can also occur to E_ flies if the larvae are exposed to SODIUM METABORATE

PHOCOMELIA in humans results in short, flipper-like limbs and can be inherited as a very rare recessive mutation. The use of THALIDOMIDE by pregnant women can also cause this disorder.

Answer 103

A

expression of a gene depends on whether it is inherited from the maternal or paternal parent.

Answer 104

A

Heritable changes in gene expression without changes in DNA sequence

Answer 105

A

Possible origin of organelles is that they were distinct bacteria like organisms that became incorporated into primitive eukaryotic cells

-symbiotic relationship developed through evolution so that each became dependent on other to survive

Answer 106

A

Maternal Effect
D=dextral d=sinistral

Genotype of mother dictates progeny phenotype by determining orientation of the spindle fibers in the first cleavage of fertilization.

Answer 107

A

due to genes on mitochondrial or chloroplast DNA

Generally one parent contributes almost all of the cytoplasm to the zygote so traits show uniparental inheritance (usually mom gives cytoplasm)
differences in reciprical crosses

Answer 108

A

observe maternal inheritance pattern
Disorder related to deficiency in bioenergetic functions of cell
document a specific mutation in a mitochondrial gene

EX. MERRF, LHON, KSS

Answer 109

A

fail to reject hypothesis

The data for (trait name) in (organism) is consistent with (the type of genetic inheritance) at the 5% significance level.

Answer 110

A

Reject the hypothesis

There is enough evidence at the 5% significance level to conclude the (trait name) in (organism) is not (type of inheritance)

Answer 111

A

The mode of inheritance for (trait name) in (organism) is (type of inheritance)

Answer 112

A

incomplete occurs when the heterozygous individual is phenotypically intermediate to the two homozygous forms, but only one gene product is formed

codominance occurs when the heterozygous individual expressed both genotypes

Answer 113

A

when the mother’s nuclear genotype dictates the phenotype of all the progeny (snail coiling direction)

Answer 114

A

genes located on the mothers mitochondria or chloroplasts dictates the phenotype of all of her progeny

Answer 115

A

In cytoplasmic inheritance, the presence of all types of mitochondria in a cell can lead to variability in her progeny. Would not expect in traits controlled by maternal effect.

Answer 116

A

Small
-easy to breed specific individuals
-easily raised in a laboratory setting without costing a lot of money
-The more we already know the better
-one we have already sequenced or know a lot about
-interesting, useful, and unusual= Armadillo: identical tetrads, Xenopus: Huge oocytes
Short generation time

Answer 117

A

process of nuclear division

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Test 1 Flashcards

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