What is the chromosome composition of the hybrid formed by the fusion of gametes from species I and II?
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ABCGHI
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What is the chromosome composition of the hybrid formed by the fusion of gametes from species I and II?
ABCGHI
What percentage of spontaneously aborted human fetuses have chromosome mutations?
At least 50%.
What is the chromosome number of an autotriploid of species I?
3n = 21
Why do triploids usually not produce viable offspring?
Because the unbalanced gene dosage in the zygote is often lethal.
What is polyploidy?
Polyploidy is an increase in the number of chromosome sets.
What is the chromosome number of species I?
2n = 14
Why is tension during metaphase I necessary?
Tension is necessary for the two homologs to separate properly in anaphase I.
What is the most common cause of aneuploidy in humans?
Missegregation of chromosomes in meiosis I during oogenesis.
What is uniparental disomy?
A condition where both chromosomes of a homologous pair are inherited from the same parent.
What are gynandromorphs?
Gynandromorphs are sexual mosaics where some cells express female traits (XX) and others express male traits (XO).
What can occasionally interfere with normal chromosome alignment during meiosis?
The presence of a third chromosome.
What is the most common cause of familial Down syndrome?
Exchange between chromosomes 21 and 14.
How does the rate of chromosome abnormality in humans compare to that in mice?
It is higher in humans, with aneuploidy found in no more than 2% of fertilized eggs in mice.
What is aneuploidy?
Aneuploidy is the loss or gain of one or more individual chromosomes.
What usually results from having three copies of chromosome 8?
It usually results in spontaneous abortion.
What is nondisjunction?
Nondisjunction is the failure of homologous chromosomes or sister chromatids to separate during meiosis or mitosis.
How can homologous chromosomes pair or fail to pair in an autotriploid during meiosis?
Homologous chromosomes can pair or fail to pair in three ways.
What happens during autopolyploidy through mitosis?
A diploid (2n) early embryonic cell undergoes replication and separation of sister chromatids without cell division, producing an autotetraploid (4n) cell.
What is the significance of the genetic variant at the PLK4 gene in human populations?
The genetic variant occurs at high frequencies in many human populations and may have been favored by natural selection, although the reason for this is unclear.
Why is Y-chromosome aneuploidy relatively common?
Because there is so little information in the Y chromosome.
What is the globe mutation in Jimson weed?
A mutation that produces a globe-shaped seedcase and is dominant but primarily inherited from the female parent.
What is the chromosomal composition of gametes resulting from meiosis in an autotriploid?
The gametes will have two copies of some chromosomes and one copy of others.
What percentage of people with Down syndrome are not trisomic for a complete chromosome 21?
About 4%.
How many chromosomes does a triploid individual (3n) of species I have?
21 (3 × 7)
What is Prader-Willi syndrome and how can uniparental disomy cause it?
Prader-Willi syndrome is a condition that arises when a paternal copy of a gene on chromosome 15 is missing. Uniparental disomy can cause it when both copies of chromosome 15 are inherited from the mother and no copy is inherited from the father.
How many chromosomes can an allotriploid have if it has 1n from species I and 2n from species II?
27 ((1 × 7) + (2 × 10))
Why is the hybrid considered diploid despite having chromosomes from two different species?
Because it has the same number of chromosomes (six) as both diploid species.
What happens when an X chromosome is lost soon after fertilization in an XX embryo?
The embryo becomes an XX/XO mosaic, developing a mixture of male and female traits.
Why are triploid bananas and watermelons seedless?
Because they are sterile due to unbalanced gametes.
What is the chromosome number of an autotetraploid of species II?
4n = 40
How can aneuploidy arise?
Aneuploidy can arise from the loss of a chromosome subsequent to translocation or from nondisjunction in meiosis or mitosis.
What role does the PLK4 gene play in aneuploidy?
A genetic variant at the PLK4 gene increases the frequency of aneuploidy by disrupting centriole regulation, leading to failure of chromosome separation in mitosis.
How many chromosomes do translocation carriers possess?
45 chromosomes.
What does the illustration in Figure 8.27 show about a triploid cell during meiosis?
It shows a triploid cell (3n) with three almost similar sized X-shaped chromosomes that are green, blue, and red, and three different ways these chromosomes can segregate.
In the illustration of meiosis in an autotriploid, what does part a show?
Part a shows the pairing of two of three homologous chromosomes in meiosis 1, where the cell has red and blue pairing together while the green is aligned at a distance.
How does uniparental disomy violate the rule regarding recessive disorders?
It allows children affected with a recessive disorder to appear in families where only one parent is a carrier.
What plant is mentioned in the context of mutant seedcases resulting from different trisomies?
Jimson weed (Datura stramonium).
What is the haploid number of chromosomes (n) for species I?
7
What is polyploidy?
The presence of more than two sets of chromosomes.
What chromosomes does a parent without translocation have in the P generation?
Normal chromosomes 21 and 14.
In which group of organisms is polyploidy most common?
Plants.
What percentage of flowering-plant species are polyploids?
Approximately 40%.
How common is genetic mosaicism in Turner syndrome?
About 50% of those diagnosed with Turner syndrome are actually mosaics, possessing some 45,X cells and some normal 46,XX cells.
What is the outcome if a gamete with two functional copies of chromosome 21 fuses with a normal gamete carrying a single copy of chromosome 21?
The resulting zygote will have familial Down syndrome.
What happens if a gamete lacking chromosome 21 fuses with a normal gamete?
The resulting zygote will have monosomy 21 and will be spontaneously aborted.
What zygotes are formed from Pair c gametes in the F1 generation?
A zygote with trisomy 14 (aborted) and a zygote with monosomy 14 (aborted).
Are there any naturally occurring, viable polyploids in birds or mammals?
No.
What is the result of fertilization between a normal gamete and a gamete with no chromatids?
A monosomic (2n-1) zygote with only one blue chromatid.
Which autosomal aneuploidy in humans results in live births most frequently?
Trisomy 21 (Down syndrome).
Why is the hybrid functionally haploid and sterile?
Because the hybrid chromosomes are not homologous and will not usually pair and segregate properly in meiosis.
What is the chromosome number of species II?
2n = 20
What results in familial Down syndrome?
The translocation of part of chromosome 21 to another chromosome.
How can an autotriploid (3n) arise?
An autotriploid can arise when nondisjunction in meiosis produces a diploid gamete that fuses with a normal haploid gamete, or from a cross between an autotetraploid and a diploid.
What is tetrasomy?
The gain of two homologous chromosomes, represented as 2n + 2.
How does the incidence of primary Down syndrome change with maternal age?
The incidence increases with maternal age.
What are the consequences of nondisjunction?
Nondisjunction leads to some gametes or cells containing an extra chromosome and others missing a chromosome.
Why are the phenotypes of translocation carriers normal despite having only 45 chromosomes?
Because they have two copies of the long arms of chromosomes 14 and 21, and the short arms of these chromosomes, which are lost, carry no essential genetic information.
Who began breeding Jimson weed (Datura stramonium) in 1913?
A. Francis Blakeslee.
What happens after the first division of meiosis in female mammals?
A secondary oocyte is produced and meiosis is suspended again.
What determines which gamete gets the extra chromosome in an autotriploid?
Chance determines which gamete gets the extra chromosome, differing for each homologous trio of chromosomes.
What causes Down syndrome?
Trisomy of chromosome 21.
What is an amphidiploid?
An amphidiploid is an allopolyploid consisting of two combined diploid genomes, functionally diploid with each chromosome having one homologous partner.
What is the result of the first meiotic cell division in the scenario where a cell has red and green chromosomes?
The cell produces 2 diploid (2n) gametes with 1 red and 1 green chromatid each.
What are some examples of polyploids?
Triploids (3n), tetraploids (4n), pentaploids (5n), hexaploids (6n), and organisms with even higher numbers of chromosome sets.
What chromosomes does a translocation carrier parent have in the P generation?
One chromatid 21, one chromatid 14, and a hybrid chromatid 14-21.
What is the phenotype of a parent who is a carrier for a 14-21 translocation?
Normal phenotype.
What percentage of grasses are polyploids?
70% to 80%.
What is the typical karyotype composition in Turner syndrome mosaics?
Turner syndrome mosaics typically have some 45,X cells and some normal 46,XX cells.
How many chromosomes will be found in a trisomic member of a diploid organism with 2n = 36 chromosomes?
37 chromosomes.
What is the difference between even-numbered autopolyploids and triploids in terms of chromosome pairing?
In even-numbered autopolyploids, homologous chromosomes can theoretically form pairs and divide equally, but this rarely happens.
How is an autotetraploid (4n) produced?
An autotetraploid is produced by nondisjunction of all chromosomes in mitosis in an early 2n embryo, doubling the chromosome number.
What is a translocation carrier?
A person who has a translocation of chromosome 21 to another chromosome, such as 14, and is phenotypically normal but at increased risk for producing children with Down syndrome.
What happens when all three chromosomes move to the same gamete?
It results in improper segregation and can lead to aneuploidy.
What phenotype does the left side of the gynandromorph fruit fly exhibit?
Normal female phenotype with red eyes and wild-type wings.
What surprising discovery has been made using molecular techniques regarding chromosome inheritance?
Sometimes both chromosomes are inherited from the same parent, a condition termed uniparental disomy.
How do many cases of uniparental disomy probably originate?
As trisomies, where a trisomic embryo can survive if one of the three chromosomes is lost early in development.
What happens if the two remaining chromosomes after a trisomy are both from the same parent?
Uniparental disomy results.
What challenge occurs during meiosis in an autotriploid?
Three homologs are present, and one may fail to align with the other two, leading to random segregation of chromosomes.
How can uniparental disomy arise?
When a trisomic embryo loses one of the triplicate chromosomes early in development.
What did John Belling demonstrate about the 12 mutants isolated by Blakeslee?
He demonstrated that the 12 mutants were trisomics.
How does an amphidiploid undergo meiosis?
An amphidiploid undergoes normal meiosis to produce balanced gametes with six chromosomes each.
What is the result of the first meiotic cell division in the scenario where a cell has only the blue chromosome?
The cell produces 2 haploid (1n) gametes with 1 blue chromatid each.
What is the outcome when all three homologous chromosomes pair and segregate randomly during meiosis 1?
One cell has only the red chromosome and another cell has blue and green chromosomes.
What happens during Anaphase 2 when a cell has only the red chromosome?
The cell produces 2 haploid (1n) gametes with 1 red chromatid each.
What are the possible chromosome combinations produced during gametogenesis in a translocation carrier?
Pair a: 14-21 chromatid and two chromatids 21 and 14; Pair b: 14-21 chromatid and 21 chromatid, and 14 chromatid; Pair c: 14-21 chromatid and 21 chromatid, and 21 chromatid.
What zygotes are formed from Pair a gametes in the F1 generation?
A translocation carrier and a normal zygote.
What zygotes are formed from Pair b gametes in the F1 generation?
A zygote with Down syndrome and a zygote with monosomy 21 (aborted).
What chromosomes do haploid gametes from species II contain?
GHI
What must chromosomes do during meiosis to ensure proper segregation?
Chromosomes must segregate to one gamete and one chromosome to the other.
What is the chromosomal basis of most cases of Down syndrome?
Trisomy of chromosome 21.
What may account for the high levels of aneuploidy seen in human conceptions originating in oogenesis?
The inefficiency of crossover maturation in females may account for the high levels of aneuploidy.
How has the determination of the parental origins of chromosomes become possible?
Through the development of molecular techniques that facilitate the identification of specific DNA sequences.
Why are X-linked recessive genes expressed in XX/XO mosaics?
Because any X-linked recessive genes present in the cells with a single X chromosome (XO) will be expressed.
What mechanism ensures that males and females receive the same functional dosage for X-linked genes in mammals?
X-chromosome inactivation ensures that males and females receive the same functional dosage for X-linked genes.
Why might aneuploidy of the sex chromosomes be less detrimental in mammals?
Because additional X chromosomes are inactivated, reducing the impact of aneuploidy.
What is the chromosomal representation of a double tetrasomic individual?
2n + 2 + 2.
When does the second meiotic division take place in female mammals?
Immediately before the nuclei of egg and sperm unite to form a zygote.
What is genetic mosaicism?
Different cells within the same individual organism have different chromosome constitutions.
How can uniparental disomy lead to cystic fibrosis?
If a child inherits two defective cystic fibrosis alleles from a heterozygous parent and no normal allele from the other parent, it can lead to cystic fibrosis.
Why is it called familial Down syndrome?
Because it has a tendency to run in families.
What percentage of Prader-Willi syndrome cases arise from uniparental disomy?
20% to 30% of Prader-Willi syndrome cases arise from uniparental disomy.
What is genetic mosaicism?
Genetic mosaicism is a condition where regions of tissue have different chromosome constitutions due to nondisjunction in a mitotic division.
What happens when a translocation chromosome separates from chromosome 14 and passes into the same cell with the normal chromosome 21?
This segregation produces abnormal gametes; half will have two functional copies of chromosome 21 (one normal and one attached to chromosome 14) and the other half will lack chromosome 21.
What percentage of human conceptions are spontaneously aborted due to chromosome abnormalities?
More than 30%.
What is autopolyploidy?
Autopolyploidy is caused by accidents of mitosis or meiosis that produce extra sets of chromosomes, all derived from a single species.
How can aneuploidy arise?
Aneuploidy can arise through the loss of a chromosome during mitosis or meiosis, loss of a small chromosome generated by a Robertsonian translocation, or through nondisjunction.
How is sex determined in fruit flies?
Sex is determined independently in each cell during development; XX cells express female traits, and XO cells express male traits.
Do translocation carriers have Down syndrome?
No, translocation carriers do not have Down syndrome.
What is the effect of aneuploidy on gene dosage?
Aneuploidy disrupts gene dosage and often has severe phenotypic effects.
What is the consequence of aneuploidy in human development?
Aneuploidy usually produces serious developmental problems that result in spontaneous abortion, with only about 2% of fetuses with a chromosome mutation surviving to birth.
What is the incidence of Down syndrome for mothers aged 20 years?
1 child in 2000 births.
Why does the right side of the gynandromorph fruit fly have a male phenotype?
Because the cells are XO, missing the wild-type X chromosome, allowing the white and miniature alleles to be expressed.
What is the incidence of Down syndrome for mothers aged 40 years?
1 child in 100 births.
Which type of aneuploidies are most common in living humans?
Aneuploidies involving the sex chromosomes.
How many different seed case mutants are mentioned in Jimson weed?
12 different seed case mutants.
What are two syndromes that result from aneuploidy of the sex chromosomes?
Turner syndrome and Klinefelter syndrome.
Why are autosomal aneuploidies resulting in live births less common than sex-chromosome aneuploidies?
Because there is no mechanism of dosage compensation for autosomes.
How can allopolyploidy arise?
Allopolyploidy can arise when nondisjunction during meiosis leads to a 2n gamete, which fuses with a 1n or 2n gamete from a different species to produce a polyploid individual.
Who created polyploids experimentally in the 1920s?
Georgii Karpechenko.
What was Georgii Karpechenko's goal in crossing cabbages and radishes?
Karpechenko wanted to produce a plant with cabbage leaves and radish roots so that no part of the plant would go to waste.
What happens during Anaphase 2 when a cell has blue and green chromosomes?
The cell produces 2 diploid (2n) gametes with 1 blue and 1 green chromatid each.
Name some agriculturally important polyploid plants.
Wheat, oats, cotton, potatoes, and sugarcane.
Is polyploidy common in animals?
No, it is less common in animals.
What is the outcome of Anaphase 2 when a cell has no chromosomes?
The cell produces 2 gametes with no chromosomes.
What is an allopolyploid?
An allopolyploid arises from hybridization between two species followed by chromosome doubling.
What happens to embryos with other chromosomal combinations resulting from a translocation carrier mating with a person without translocation?
They result in spontaneously aborted embryos.
What is the life expectancy of babies born with Edwards syndrome?
Few live for more than a year after birth.
What is the frequency of Trisomy 13 (Patau syndrome) in live births?
About 1 in 15,000 live births.
What is the life expectancy of children with Trisomy 13?
About half die within the first month of life, and 95% die by the age of three.
What is a common feature of individuals born with Trisomy 8?
Most are mosaics, having some cells with three copies of chromosome 8 and other cells with the usual two copies.
What happens when an unbalanced gamete fuses with a normal gamete?
The resulting zygote has different numbers of chromosomes, creating unbalanced gene dosage, which is often lethal.
Can familial Down syndrome be caused by translocations between chromosome 21 and chromosomes other than 14?
Yes, it can also be caused by translocations between chromosome 21 and other chromosomes, such as 15.
What does XO mean in the context of chromosome composition?
XO means that the cell has a single X chromosome and no Y chromosome.
How does allopolyploidy arise?
From hybridization between two species, resulting in a polyploid carrying chromosome sets from two or more species.
What is the chromosome number of an allotriploid formed from species I and species II?
n (species I) + 2n (species II) = 7 + 20 = 27 or 2n (species I) + n (species II) = 14 + 10 = 24
How can autopolyploidy arise?
Through nondisjunction in mitosis or meiosis.
What is the most common cause of Down syndrome and other types of aneuploidy in humans?
Maternal nondisjunction.
At what stage are female mammals' primary oocytes suspended at birth?
In the diplotene substage of prophase I of meiosis.
When does meiosis resume in female mammals?
Just before ovulation.
What is uniparental disomy?
An individual organism has two copies of a chromosome from one parent and no copy from the other.
What is the incidence of Down syndrome for mothers aged 50 years?
1 child in 12 births.
Why is aneuploidy of human sex chromosomes better tolerated than aneuploidy of autosomes?
Because there is a mechanism of dosage compensation for sex chromosomes.
How many pairs of chromosomes does Datura stramonium have?
12 pairs of chromosomes (2n = 24).
Why did the trisomic mutants in Jimson weed exhibit unusual inheritance patterns?
Because many of the extra chromosomes in the trisomics were lost in meiosis, leading to fewer than 50% of the gametes carrying the extra chromosome.
Why was the proportion of trisomics in the progeny low?
Because the pollen containing an extra chromosome was less successful in fertilization, and trisomic zygotes were less viable.
Does aneuploidy affect the nucleotide sequences of genes?
No, it affects the number of gene copies but not their nucleotide sequences.
Who first described the features of Down syndrome and in what year?
John Langdon Down in 1866.
How can aneuploids be produced?
Through nondisjunction in meiosis I, meiosis II, or mitosis.
What is the result when none of the chromosomes pair during meiosis 1?
All three chromosomes move to the same side in the cell during Anaphase 1.
What is the outcome of Anaphase 2 when a cell has all three chromosomes?
The cell produces 2 (3n) gametes with 1 blue, 1 red, and 1 green chromatid each.
What are the outcomes of meiosis II after nondisjunction in meiosis I?
Two gametes with 2 chromatids each and two gametes with no chromatids.
How does the incidence of Down syndrome change with maternal age?
The incidence increases among children born to older mothers.
What is allopolyploidy?
A type of polyploidy in which chromosome sets are from two or more species.
What usually causes primary Down syndrome?
Spontaneous nondisjunction during egg formation.
Why are sex-chromosome aneuploidies more common than autosomal aneuploidies in humans?
X-chromosome inactivation prevents problems of gene dosage for X-linked genes.
What is the result of fertilization between a normal gamete and gametes that have one chromatid each?
It produces 2 normal diploid (2n) zygotes with one red and one blue chromatid each.
What is nullisomy?
The loss of both members of a homologous pair of chromosomes, represented as 2n - 2.
How does crossover formation in females compare to that in males?
Crossover formation in females is often inefficient compared to that in males, leading to fewer mature crossovers and more crossovers likely to lead to missegregation of chromosomes during meiosis.
What happens if a chromosome's centromere is deleted?
The chromosome may be lost because the spindle microtubules cannot attach, preventing it from moving to the spindle pole and being incorporated into a nucleus after cell division.
What role does colchicine play in polyploidy?
Colchicine disrupts spindle formation and is often used to induce polyploidy in agriculturally and ornamentally important plants.
How many chromosomes does a human tetrasomic zygote have?
48 chromosomes.
At what maternal age does the incidence of Down syndrome start to significantly increase?
Around age 35.
Why does the left side of the gynandromorph fruit fly have a normal female phenotype?
Because the cells are XX and the recessive alleles on one X chromosome are masked by the presence of wild-type alleles on the other.
Why are autopolyploids usually sterile?
Because all chromosome sets are homologous and attempt to align in prophase I of meiosis, leading to irregular segregation.
What is the most common form of aneuploidy seen in living organisms like mice and humans?
Aneuploidy of the sex chromosomes.
How many different mutants did Blakeslee isolate in Jimson weed?
12 different mutants.
What is uniparental disomy?
Uniparental disomy occurs when both copies of a chromosome are inherited from one parent and no copy is inherited from the other parent.
List some of the seed case mutants in Jimson weed.
Rolled, Glossy, Buckling, Elongate, Echinus, Cocklebur, Microcarpic, Reduced, Spinach, Poinsettia, Globe, and Ilex.
What usually happens to embryos with autosomal aneuploidies?
Most are spontaneously aborted.
Which chromosome's aneuploidy occasionally results in live births due to its small size and relatively few genes?
Chromosome 21.
What is the effect of aneuploidy on gene dosage?
Aneuploidy alters the dosage for some, but not all, genes.
What was the chromosome number of the hybrid produced by crossing cabbages and radishes?
The hybrid had 2n = 18 chromosomes.
What happens to gametes resulting from meioses with nondisjunction when they combine with a normal gamete?
They produce aneuploid zygotes.
What occurs during nondisjunction in meiosis I?
A nucleus with 2 X-shaped chromosomes fails to separate, resulting in one nucleus with 2 chromosomes and one with none.
What was the chromosome number of the viable and fertile plants produced by Karpechenko's hybrid?
The viable and fertile plants were allotetraploids with 2n chromosomes.
What increased risk do translocation carriers face?
They are at increased risk for producing children with familial Down syndrome.
What does the occurrence of Down syndrome in children of translocation carriers suggest about embryos with Down syndrome?
Some of the embryos with Down syndrome are spontaneously aborted.
What chromosome abnormalities are often found in tumor cells?
Many tumor cells have extra chromosomes or missing chromosomes, or both.
Why can't the sterile hybrid produce viable gametes through meiosis?
The sterile hybrid cannot produce viable gametes through meiosis because it has non-homologous chromosomes that do not pair and segregate properly.
Why are crossovers important for proper segregation of homologous chromosomes in meiosis I?
Crossovers connect the two chromosomes, creating tension when the homologs are pulled in opposite directions, ensuring proper segregation.
What is the relationship between maternal age and the frequency of aneuploidy?
The frequency of aneuploidy increases with maternal age.
What is the result of nondisjunction in meiosis producing a diploid gamete?
The result is the formation of an autotriploid (3n) zygote when the diploid gamete fuses with a normal haploid gamete.
What does it mean for an individual to be double trisomic?
The individual has an extra copy of each of two different (nonhomologous) chromosomes, represented as 2n + 1 + 1.
What is the chromosomal representation of a double monosomic individual?
2n - 1 - 1.
What unusual observation did Blakeslee make when crossing Jimson-weed mutants?
He observed unusual ratios of progeny, such as only 25% of progeny having the globe phenotype when globe mutants self-fertilized.
How can cystic fibrosis occur due to uniparental disomy?
A person with cystic fibrosis may inherit two copies of chromosome 7 carrying the cystic fibrosis mutation from one parent.
What does the graph indicate about the likelihood of older mothers giving birth to a child with Down syndrome compared to younger mothers?
Older mothers are more likely to give birth to a child with Down syndrome than younger mothers.
What happens to homologous chromosomes during Anaphase 1 in meiosis?
Two homologous chromosomes pair, whereas the other segregates randomly.
What is familial Down syndrome?
A condition where individuals have 46 chromosomes but an extra copy of part of chromosome 21 is attached to another chromosome through a translocation.
How many chromosomes does an autotetraploid (4n) of species II have?
40 (4 × 10)
How do the phenotypic characteristics of familial Down syndrome compare to primary Down syndrome?
They are the same.
What causes familial Down syndrome?
It arises in offspring whose parents are carriers of chromosomes that have undergone a Robertsonian translocation.
Which chromosomes are most commonly involved in the Robertsonian translocation that leads to familial Down syndrome?
Chromosome 21 and chromosome 14.
What happens during the Robertsonian translocation between chromosomes 21 and 14?
The long arm of chromosome 21 and the short arm of chromosome 14 exchange places.
What happens to the gametes produced when the translocation chromosome segregates from chromosomes 14 and 21?
Half of the gametes will have the translocation chromosome and no other copies of chromosomes 21 and 14, and the other half will be normal.
What is the outcome when a gamete with the translocation chromosome fuses with a normal gamete?
It gives rise to a translocation carrier.
How many types of gametes produced by a translocation carrier will result in the birth of a baby?
Three of the six types of gametes.
What is autopolyploidy?
A type of polyploidy in which all chromosome sets are from a single species.
What is the chromosome composition of the hybrid in the F1 generation?
The hybrid has one chromatid each of A, B, C, G, H, and I, with a total of 2n=6.
In which phase of meiosis do most maternal nondisjunction events causing Down syndrome arise?
Meiosis I.
What is the result of fertilization between a normal gamete and a gamete with no chromatids?
It produces a monosomic (2n - 1) zygote with only 1 blue chromatid.
Are relatives of a couple with a child with primary Down syndrome more likely to have a child with Down syndrome?
No, the couple’s relatives are not more likely to have a child with primary Down syndrome.
What is the chromosome number of an allotetraploid formed from species I and species II?
2n (species I) + 2n (species II) = 14 + 20 = 34
What phenotype does the right side of the gynandromorph fruit fly exhibit?
Male phenotype with white eyes and miniature wings.
What is the result of nondisjunction in meiosis I in terms of gamete formation?
It produces a 2n gamete that fuses with a 1n gamete to produce an autotriploid (3n) zygote.
What is the incidence of Down syndrome for mothers aged 30 years?
1 child in 900 births.
Who discovered the first recognized aneuploid, a fruit fly with a single X chromosome and no Y chromosome?
Calvin Bridges in 1913.
What is the wild type case seed labeled as in Jimson weed?
2n.
What is the haploid number of chromosomes (n) for species II?
10
What is the primary cause of the drastic alteration in phenotype due to aneuploidy?
Abnormal gene dosage.
Why is aneuploidy often lethal in most animals and many plants?
Because it alters the number of gene copies, leading to abnormal gene dosage.
What is the phenotype of a translocation carrier?
Completely normal.
Why do translocation carriers have an increased chance of producing children with Down syndrome?
Because the translocation chromosome can segregate in a way that leads to an unbalanced set of chromosomes in the offspring.
What are some characteristic features of individuals with Down syndrome as described by John Langdon Down?
A broad, flat face, a small nose, and oval-shaped eyes.
What was the outcome of the initial hybrid produced by Karpechenko?
The initial hybrid was sterile.
What did Karpechenko notice after several crosses of his hybrid plants?
He noticed that one of his hybrid plants produced a few seeds, which grew into viable and fertile plants.
What is the incidence of Down syndrome in human births?
About 1 in 700 human births.
What are the theoretical proportions of offspring types from a translocation carrier?
One-third should be translocation carriers, one-third should have familial Down syndrome, and one-third should have a normal set of chromosomes.
What occurs during nondisjunction in meiosis II?
Normal separation of chromosomes in meiosis I, followed by nondisjunction in meiosis II.
What is the frequency of Trisomy 18 (Edwards syndrome) in live births?
Approximately 1 in 8000 live births.
What is the chromosome composition of the allotetraploid produced by non-disjunction?
The allotetraploid has a pair of each of chromosomes A, B, C, G, H, and I, with a total of 4n=12.
Is there a significant hereditary tendency for primary Down syndrome?
No, the failure of the chromosomes to divide has little hereditary tendency.
What rare event can lead to the formation of an allotetraploid from a sterile hybrid?
On rare occasions, nondisjunction takes place in a mitotic division, leading to a doubling of chromosome number and the formation of an allotetraploid.
What is monosomy?
The loss of a single chromosome, represented as 2n - 1.
How many chromosomes can an allotriploid have if it has 2n from species I and 1n from species II?
24 ((2 × 7) + (1 × 10))
How many chromosomes can an allotetraploid have if it has 3n from species I and 1n from species II?
31 ((3 × 7) + (1 × 10))
How does the translocation chromosome segregate during anaphase I of meiosis?
It may separate from the normal chromosomes 14 and 21.
What is Down syndrome also known as?
Trisomy 21.
What is the most common autosomal aneuploidy in humans?
Down syndrome (trisomy 21).
What is the outcome when a normal gamete fuses with another normal gamete?
It results in offspring with a normal set of chromosomes.
What is the likelihood of offspring having Down syndrome if a person without a translocation mates with a translocation carrier?
One-third of their offspring will have Down syndrome.
Why may primary oocytes remain suspended in diplotene for many years?
Primary oocytes may remain suspended in diplotene for many years before ovulation takes place and meiosis recommences.
Why is there no similar age effect seen in males regarding aneuploidy?
Because sperm are produced continuously after puberty, with no long suspension of the meiotic divisions.
Do most children with Down syndrome have affected parents?
No, most children with Down syndrome are born to unaffected parents.
How can the sterile hybrid perpetuate itself?
The sterile hybrid may be able to perpetuate itself through mitosis (asexual reproduction).
What are some characteristics of Trisomy 8?
Intellectual disability, contracted fingers and toes, low-set malformed ears, and a prominent forehead.
How many chromosomes does a human trisomic zygote have?
47 chromosomes.
How many chromosomes can an allotetraploid have if it has 2n from species I and 2n from species II?
34 ((2 × 7) + (2 × 10))
How many chromosomes can an allotetraploid have if it has 1n from species I and 3n from species II?
37 ((1 × 7) + (3 × 10))
What is the result of the third type of segregation where the translocation chromosome and the normal copy of chromosome 14 segregate together?
This pattern produces abnormal gametes: half result in monosomy 14 and the other half in trisomy 14, all of which are spontaneously aborted.
What is the likelihood of offspring having a normal phenotype if a person without a translocation mates with a translocation carrier?
Two-thirds of their offspring will have a normal phenotype.
What condition do children born to translocation carriers often have?
Down syndrome.
What is the term for having three full copies of chromosome 21?
Primary Down syndrome.
What is the result of non-disjunction at an early mitotic cell division in the hybrid?
Non-disjunction leads to a doubling of all chromosomes, producing an allotetraploid (4n=12).
What is the relationship between specific chromosome mutations and certain types of tumors?
Some types of tumors are consistently associated with specific chromosome mutations, including aneuploidy and chromosome rearrangements.
What are some characteristics of Patau syndrome (Trisomy 13)?
Severe intellectual disability, a small head, a sloping forehead, small eyes, a cleft lip and palate, extra fingers and toes, and numerous other problems.
What is the frequency of Trisomy 8 in live births?
Ranging from about 1 in 25,000 to 1 in 50,000 live births.
What is trisomy?
The gain of a single chromosome, represented as 2n + 1.
What is the result of the Robertsonian translocation between chromosomes 21 and 14?
One chromosome includes the long arms of chromosomes 14 and 21, and another very small chromosome consists of the short arms of chromosomes 21 and 14.
What generally happens to the small chromosome formed by the Robertsonian translocation?
It is generally lost after several cell divisions.
What is the overall effect of random segregation of homologous chromosomes in meiosis?
It creates unbalanced gametes with various numbers of chromosomes.
What happens during hybridization between two diploid species?
Hybridization between two diploid species (2n=6) produces a hybrid with six non-homologous chromosomes that do not pair and segregate properly in meiosis, resulting in unbalanced, non-viable gametes.
What can lead to more aneuploidy in children born to older mothers?
The breakdown of cohesin components of the spindle and other structures required for proper chromosome segregation during the long arrest of meiosis.
What are some characteristics of Edwards syndrome (Trisomy 18)?
Severe intellectual disability, low-set ears, a short neck, deformed feet, clenched fingers, heart problems, and other disabilities.
What is the chromosomal composition of a normal gamete in the given scenario?
A normal gamete has one blue chromatid.
How does chromosome pairing and segregation occur in the allotetraploid?
Chromosome pairing and segregation are normal, producing balanced gametes.
What causes Down syndrome?
Down syndrome results from three functional copies of chromosome 21, either through trisomy (primary Down syndrome) or a Robertsonian translocation (familial Down syndrome).
How many chromosomes does a human monosomic zygote have?
45 chromosomes.
In which animals is polyploidy found?
Some invertebrates, fishes, salamanders, frogs, and lizards.
What is the result of fertilization between a normal gamete and a gamete with 2 chromatids?
A trisomic (2n+1) zygote with 2 red and one blue chromatid.
What percentage of Down syndrome cases involve three full copies of chromosome 21?
Approximately 92%.
What are the two possible outcomes for the hybrid in the F1 generation?
The two possible outcomes are gametogenesis producing non-viable gametes or non-disjunction at an early mitotic cell division producing an allotetraploid.
What is the result of fertilization between a normal gamete and a gamete with two chromatids?
It produces a trisomic (2n + 1) zygote with 2 red and 1 blue chromatids.
Do couples who have conceived one child with primary Down syndrome have a significantly higher risk of conceiving another child with Down syndrome?
No, they have only a slightly higher risk compared to other couples of similar age.
What is the result of cell proliferation after non-disjunction in mitosis?
A somatic clone of monosomic cells (2n - 1) and a somatic clone of trisomic cells (2n + 1) are produced.
What percentage of nondisjunction events causing Down syndrome are maternal in origin?
About 75%.
What happens during non-disjunction in mitosis as described in the scenario?
A nucleus with 1 red chromatid and a nucleus with one red and 2 blue chromatids are produced.
How many chromosomes does a human nullisomic zygote have?
44 chromosomes.
What is aneuploidy?
Aneuploidy is a change in the number of individual chromosomes.
