Deck 10: Meiosis and Sexual Life Cycles

A) sporophyte meiosis
B) gametophyte mitosis
C) gametophyte meiosis
D) sporophyte mitosis

A) prophase
B) metaphase
C) anaphase
D) telophase

A) a natural cellular arrangement of chromosomes in the nucleus
B) a display of all the cell types in an organism
C) organized images of a cell's chromosomes
D) a display of a cell's mitotic stages

A) It must be human.
B) It must be an animal.
C) It must be sexually reproducing.
D) Its gametes must have 23 chromosomes.

A) Privet cells cannot reproduce sexually.
B) Genes of privet chromosomes are significantly different from those in humans.
C) Privet shrubs must be metabolically more like animals than like other shrubs.
D) Genes on a particular privet chromosome, such as the X, must be on a different human chromosome, such as number 18.

A) 63 chromosomes in 31 1/2 pairs
B) 63 chromosomes in 21 sets of 3
C) 63 chromosomes, each with 3 chromatids
D) 21 chromosome pairs and 21 unique chromosomes

A) one human somatic cell
B) one human chromosome
C) all of the DNA of one human
D) one human gene

A) A diploid plant (sporophyte) produces, by meiosis, a spore that gives rise to a multicellular, haploid pollen grain (gametophyte).
B) A diploid animal produces gametes by meiosis, and the gametes undergo fertilization to produce a diploid zygote.
C) A haploid mushroom produces gametes by mitosis, and the gametes undergo fertilization, which is immediately followed by meiosis.
D) A diploid cell divides by mitosis to produce two diploid daughter cells, which then fuse to produce a tetraploid cell.

A) The species has 16 sets of chromosomes per cell.
B) Each cell has eight homologous pairs.
C) During the S phase of the cell cycle there will be 32 separate chromosomes.
D) A gamete from this species has four chromosomes.

A) at most, 2 alleles for that gene
B) up to 18 chromosomes with that gene
C) up to 18 genes for that trait
D) up to, but not more than, 18 different traits

A) I, IV, and V
B) I, II, and IV
C) II, III, and IV
D) II, IV, and V

A) representation of a complete set of a cell's polypeptides
B) the complete set of an organism's polypeptides
C) a karyotype
D) the complete set of an organism's genes

A) a pictorial representation of all the genes for a species
B) a display of all of the chromosomes of a single cell
C) the combination of all the maternal and paternal chromosomes of a species
D) the collection of all the chromosomes in an individual organism

A) Backtrack through her previous experiments to obtain another plant with the same traits.
B) Breed this plant with another plant with much weaker traits.
C) Clone the plant asexually to produce an identical one.
D) Force the plant to self-pollinate to obtain an identical one.

A) In humans, the 23rd pair, the sex chromosomes, determines whether the person is female (XX) or male (XY).
B) Single, haploid (n) sets of chromosomes in ovum and sperm unite during fertilization, forming a haploid (n), single-celled zygote.
C) At sexual maturity, ovaries and testes produce diploid gametes by meiosis.
D) Sexual life cycles among different types of organisms are identical with respect to the relative timing of meiosis and fertilization.

A) a haploid animal cell
B) a diploid cell from a plant stem
C) any diploid animal cell
D) a unicellular alga

A) Asexual reproduction, but not sexual reproduction, is characteristic of plants and fungi.
B) In sexual reproduction, individuals transmit 50% of their genes to each of their offspring.
C) In asexual reproduction, offspring are produced by fertilization without meiosis.
D) Asexual reproduction produces only haploid offspring.

A) by allowing crossing over
B) by allowing an increase in cell number
C) by increasing gene stability
D) by conserving chromosomal gene order
E) by decreasing mutation frequency

A) a haploid animal cell
B) a diploid animal cell
C) a diploid plant cell
D) a diploid unicellular organism

A) an error in either egg or sperm meiotic anaphase
B) failure of the egg nucleus to be fertilized by the sperm
C) an error in the alignment of chromosomes on the metaphase plate
D) multiple crossover events during meiosis I

A) length and position of the centromere only
B) length, centromere position, and staining pattern only
C) length, centromere position, staining pattern, and traits coded for by their genes
D) length, centromere position, staining pattern, and DNA sequences

A) They must persist throughout the cell cycle.
B) They must be removed before meiosis can begin.
C) They must be removed before sister chromatids or homologous chromosomes can separate.
D) They must be intact for nuclear envelope re-formation.

A) III
B) IV
C) V
D) VII

A) I only
B) I and IV only
C) I and VIII only
D) I, II, III, and IV only

A) They have half the number of chromosomes and half the amount of DNA.
B) They have the same number of chromosomes and half the amount of DNA.
C) They have half the number of chromosomes and one-fourth the amount of DNA.
D) They have half the amount of cytoplasm and twice the amount of DNA.

A) only during mitosis
B) only during meiosis I
C) only during meiosis II
D) during both mitosis and meiosis II

A) sister chromatids of a replicated chromosome grouped at the poles
B) individual chromosomes all at the cell's center
C) an uninterrupted spindle array
D) pairs of homologous chromosomes all aligned at the cell's center

A) I
B) II
C) IV
D) VI

A) 3
B) 5
C) 2 and 3 only
D) 2, 3, and 5

A) meiosis II
B) anaphase II
C) prophase I
D) separation of homologs

A) Homologous chromosomes of a pair are separated from each other.
B) The chromosome number per cell is conserved.
C) Sister chromatids are separated.
D) Four daughter cells are formed.

A) 23
B) 46
C) 460
D) approximately 8.4 million

A) two single-stranded chromosomes that have synapsed
B) two sister chromatids that have synapsed
C) four sister chromatids
D) four unique chromosomes

A) It has half the amount of DNA of the cell that began meiosis.
B) It has the same number of chromosomes, but each of them has different alleles than another cell from the same meiosis.
C) It has half the chromosomes but twice the DNA of the originating cell.
D) It is identical in content to another cell from the same meiosis.

A) chromosome replication
B) synapsis of chromosomes
C) production of daughter cells
D) condensation of chromatin

A) diploid, and the chromosomes are each composed of a single chromatid.
B) diploid, and the chromosomes are each composed of two chromatids.
C) haploid, and the chromosomes are each composed of a single chromatid.
D) haploid, and the chromosomes are each composed of two chromatids.

A) late prophase of meiosis I
B) early anaphase of meiosis I
C) mid-prophase of meiosis II
D) late metaphase of meiosis II

A) mitosis in her ovary
B) telophase II of one meiotic event
C) telophase I of one meiotic event
D) either anaphase I or II

A) the random and independent way in which each pair of homologous chromosomes lines up at the metaphase plate during meiosis I.
B) the random nature of the fertilization of ova by sperm.
C) the random distribution of the sister chromatids to the two daughter cells during anaphase II.
D) the relatively small degree of homology shared by the X and Y chromosomes.

A) I
B) II
C) III
D) both I and II

A) I
B) II
C) either I or II
D) either I or III

A) only blue short gene eggs
B) only orange short gene eggs
C) one-half blue short and one-half orange short gene eggs
D) three-fourths blue short and one-fourth orange short gene eggs

A) during mitosis only
B) during meiosis I only
C) during meiosis II only
D) during mitosis and meiosis I

A) The eggs and the zygotes are all haploid.
B) The animals are all males.
C) Although asexual, both males and females are found in nature.
D) No males can be found.

A) I only
B) II only
C) III only
D) I and III

A) Sexual reproduction results in many new gene combinations, some of which will lead to differential reproduction.
B) Sexual reproduction results in the most appropriate and healthiest balance of two sexes in a population.
C) Sexual reproduction results in the greatest number of new mutations.
D) Sexual reproduction allows the greatest number of offspring to be produced.

A) The sporophyte's chromosome number per cell is 10 and the gametophyte's is 5.
B) The sporophyte's chromosome number per cell is 5 and the gametophyte's is 10.
C) The sporophyte and gametophyte each have 10 chromosomes per cell.
D) The sporophyte and gametophyte each have 5 chromosomes per cell.

A) a sperm.
B) an egg.
C) a zygote.
D) a somatic cell of a male.

A) II only
B) III only
C) V only
D) either II or V

A) I
B) II
C) IV
D) V

A) All eggs will have paternal types of gene combinations.
B) Half the eggs will have maternal and half will have paternal combinations.
C) Each egg has a one-fourth chance of having blue long, blue short, orange long, or orange short combinations.
D) Each egg has a three-fourths chance of having blue long, one-fourth blue short, three-fourths orange long, or one-fourth orange short combinations.

A) ~50 times per chromosome pair
B) ~2 times per meiotic cell
C) at least 1-3 times per chromosome pair
D) ~1 time per pair of sister chromatids

A) either two number 12 chromosomes with blue genes or two with orange genes
B) either two number 19 chromosomes with long genes or two with short genes
C) either one blue or one orange gene in addition to either one long or one short gene
D) one chromosome 12 with one blue gene and one chromosome 19 with one long gene

A) Two sister chromatids get tangled, resulting in one altering the sequence of its DNA.
B) Two sister chromatids exchange identical pieces of DNA.
C) Specific proteins break the two strands of nonsister chromatids and re-join them.
D) Each of the four DNA strands of a homologous pair is broken, and the pieces are mixed.

A) mitosis.
B) meiosis I.
C) meiosis II.
D) fertilization.

A) I only
B) II only
C) III only
D) I and II

A) zygote, mitosis, gametophyte, mitosis, fertilization, zygote, mitosis
B) sporophyte, meiosis, spore, mitosis, gametophyte, mitosis, gametes, fertilization
C) fertilization, mitosis, multicellular haploid, mitosis, spores, sporophyte
D) gametophyte, meiosis, zygote, spores, sporophyte, zygote

A) I only
B) II only
C) III only
D) I and II

A) I
B) II
C) III
D) either I or II

A) 0.25x.
B) 0.5x.
C) x.
D) 2x.

A) 0.25x.
B) 0.5x.
C) x.
D) 2x.