Heredity Assessment Jeopardy

a.They showed that heredity does not follow a set pattern. b.They showed that some traits are never passed on. c.They showed the relationship between two different things. d.They showed that some recessive traits are really dominant. Why were ratios important in Mendel ’ s work?

a.They showed that heredity does not follow a set pattern. b.They showed that some traits are never passed on. c.They showed the relationship between two different things. d.They showed that some recessive traits are really dominant. Why were ratios important in Mendel ’ s work?

a.genesc.phenotypes b.allelesd.d. meiosis Each parent gives one set of these to the offspring.

a.genesc.phenotypes b.allelesd.d. meiosis Each parent gives one set of these to the offspring.

a.heterozygous.c.homozygous. b.cross-pollinating.d.true-breeding. A plant with two dominant OR two recessive alleles is said to be

a.heterozygous.c.homozygous. b.cross-pollinating.d.true-breeding. A plant with two dominant OR two recessive alleles is said to be

a. none of our body cells reproduce this way. b.many body cells reproduce this way. c.the parent cells do not divide. d.meiosis occurs. Asexual reproduction relates to humans in that

a. none of our body cells reproduce this way. b.many body cells reproduce this way. c.the parent cells do not divide. d.meiosis occurs. Asexual reproduction relates to humans in that

a.Sex cells have more chromosomes. b. Sex cells have half as many chromosomes. c.Sex cells are larger. d.Sex cells have no chromosomes. How are sex cells different from other human cells?

a.Sex cells have more chromosomes. b. Sex cells have half as many chromosomes. c.Sex cells are larger. d.Sex cells have no chromosomes. How are sex cells different from other human cells?

a. chromosomes that carry the same set of genes b. chromosomes that carry different sets of genes c.chromosomes that are small d.chromosomes that are large What are homologous chromosomes?

a. chromosomes that carry the same set of genes b. chromosomes that carry different sets of genes c.chromosomes that are small d.chromosomes that are large What are homologous chromosomes?

a.Males have two X chromosomes. b.Males have only one X chromosome. c.Males have two Y chromosomes. d.Males have two X and two Y chromosomes. Why do sex-linked disorders occur more often in males?

a.Males have two X chromosomes. b.Males have only one X chromosome. c.Males have two Y chromosomes. d.Males have two X and two Y chromosomes. Why do sex-linked disorders occur more often in males?

a.the traits were appearing at random. b.the male traits were always the dominant ones. c. each trait had two sets of instructions, one from each parent. d.his important research would open the door to modern genetics. The one thing that Gregor Mendel realized could explain the results of his experiments was that

a.the traits were appearing at random. b.the male traits were always the dominant ones. c. each trait had two sets of instructions, one from each parent. d.his important research would open the door to modern genetics. The one thing that Gregor Mendel realized could explain the results of his experiments was that

a. homologous chromosomes c.sex chromosomes b.pedigreed.phenotype What carries the genes that determine sex?

a. homologous chromosomes c.sex chromosomes b.pedigreed.phenotype What carries the genes that determine sex?

a.alleles.c.albinism. b.phenotype.d.genes. Instructions for an inherited trait are called

a.alleles.c.albinism. b.phenotype.d.genes. Instructions for an inherited trait are called

a.alleles.c.albinism. b.phenotypes.d.genes. The different forms of a gene that decide a characteristic are known as

a.alleles.c.albinism. b.phenotypes.d.genes. The different forms of a gene that decide a characteristic are known as

a. Recessive traits reappear in the second generation. b.Recessive traits disappear altogether. c. Recessive traits never appear in the second generation. d.Recessive traits become dominant. What did Mendel discover about recessive traits?

a. Recessive traits reappear in the second generation. b.Recessive traits disappear altogether. c. Recessive traits never appear in the second generation. d.Recessive traits become dominant. What did Mendel discover about recessive traits?

a.twinsc.meiosis b.mitosisd.homologous Which one of the following is the name for the way cells divide in asexual reproduction?

a.twinsc.meiosis b.mitosisd.homologous Which one of the following is the name for the way cells divide in asexual reproduction?

a.pedigreec.meiosis b.selective breeding d.generation square This diagram is used to trace a trait through generations of a family.

a.pedigreec.meiosis b.selective breeding d.generation square This diagram is used to trace a trait through generations of a family.

a. twin chromosomes c. ordinary chromosomes b.homologous chromosomes d.asexual chromosomes What are chromosomes that carry the same sets of genes?

a. twin chromosomes c. ordinary chromosomes b.homologous chromosomes d.asexual chromosomes What are chromosomes that carry the same sets of genes?

a.pedigreec.fertilization b.characteristicd.trait What is a feature that has different forms in a population?

a.pedigreec.fertilization b.characteristicd.trait What is a feature that has different forms in a population?

a. different forms of meiosis c. different forms of chromatids b.different forms of a pedigree d.different forms of a characteristic What is a trait?

a. different forms of meiosis c. different forms of chromatids b.different forms of a pedigree d.different forms of a characteristic What is a trait?

a.allele plant.c. self-pollinating plant. b.true-breeding plant. d.cross- pollinating plant. When a plant fertilizes itself, it is called a(n)

a.allele plant.c. self-pollinating plant. b.true-breeding plant. d.cross- pollinating plant. When a plant fertilizes itself, it is called a(n)

a. one allele has more influence than the others. b. each allele has its own degree of influence. c.the alleles have no influence. d.there are no alleles present. When there is incomplete dominance,

a. one allele has more influence than the others. b. each allele has its own degree of influence. c.the alleles have no influence. d.there are no alleles present. When there is incomplete dominance,

a. asexual reproduction. c. sexual reproduction. b.something going wrong. d.mitosis. Offspring that are different from both parents are produced by

a. asexual reproduction. c. sexual reproduction. b.something going wrong. d.mitosis. Offspring that are different from both parents are produced by

a.traits passing from offspring to parents b.traits passing from parents to offspring c.plants that are cross-pollinated d.the ratio of dominant to recessive traits What is heredity?

a.traits passing from offspring to parents b.traits passing from parents to offspring c.plants that are cross-pollinated d.the ratio of dominant to recessive traits What is heredity?

a.1 to 1c.3 to 1 b.2 to 1d.4 to 1 What is Mendel ’ s ratio for dominant to recessive traits?

a.1 to 1c.3 to 1 b.2 to 1d.4 to 1 What is Mendel ’ s ratio for dominant to recessive traits?

a. the way an organism feels c.a dominant gene b.a group of 5 alleles d.the way an organism looks What is a phenotype?

a. the way an organism feels c.a dominant gene b.a group of 5 alleles d.the way an organism looks What is a phenotype?

a.sex cellsc.a nucleus b.meiosisd.mitosis What is it called when cells are copied with half the number of chromosomes?

a.sex cellsc.a nucleus b.meiosisd.mitosis What is it called when cells are copied with half the number of chromosomes?

a.P-gridc. heredity map b.dominance chart d.Punnett square Look at the table. What is this table called?

a.P-gridc. heredity map b.dominance chart d.Punnett square Look at the table. What is this table called?

a.purplec.purple with white edges b.whited.lavender (white and purple mix) Look at the diagram. If purple (P) is dominant, and white (p) is recessive, what color will one out of every four of the offspring be?

a.purplec.purple with white edges b.whited.lavender (white and purple mix) Look at the diagram. If purple (P) is dominant, and white (p) is recessive, what color will one out of every four of the offspring be?

a.25%c.75% b.50%d.100% Look at the table. What is the probability that the offspring will be pp?

a.25%c.75% b.50%d.100% Look at the table. What is the probability that the offspring will be pp?

What is incomplete dominance? What is the probability of getting “ heads ” in a coin toss? Explain the relationship between traits and heredity. Explain the difference between dominant and recessive traits. Describe how probability can describe possible outcomes in offspring. How would the importance of Mendel ’ s experiments have been different if he had never done the second experiments? What are the possible phenotypes for plant height in Mendel ’ s experiments? Since sex cells only have half the chromosome cells that are found in a regular cell, how do they grow into cells that have a full set of chromosomes?