Biology 101 Exam 4, Chapter 9,10,12
Haploid
(1) copy of each chromosomes in a cell (reproductive cells sperm/eggs)
Diploid
2 sets of chromosomes (samatic body cells)
Triplet code
3 bases of DNA that code for a single amino acid
binary fission
A form of asexual reproduction in single-celled organisms by which one cell divides into two cells of the same size
In certain plants, tall is dominant to short, if a heterozygous plant is crossed with a homozygous tall plant, what is the probability that the offspring will be short? A. 0% B. 25% C. 50% D. 100%
A. 0%
Which of the following is released by platelets in the vicinity of an injury. A. PDGF B. MPF C. P53 D. RB protein
A. PDGF
A man with widow's peak (dominant) who can curl his tongue (dominant) has a child who has a straight hairline and cannot curl the tongue. What is the father's genotype? The allele that produces Widow's peak is (W), and the allele for curling the tongue is (T) A. WwTt B. Wwtt C. wwtt D. WWTT
A. WwTt
Two pink flowers produce red, white and pink flower offspring. What is this pattern of inheritance called? A. autosomal recessive B. autosomal dominant C. incomplete dominance D. polygenic inheritance
A. autosomal recessive
Which of the following events occurs during Prophase I of meiosis but does not occur during prophase of mitosis? A. crossing over B. nuclear envelope dissolves C. chromatin condenses into chromosomes. D. the mitotic spindle begins to form
A. crossing over
The first gap in the cell cycle (G1) corresponds to_____. A. normal growth and cell function B. the phase in which DNA is being replicated C. the beginning of mitosis D. the phase between DNA replication and the M phase
A. normal growth and cell function
if a pea plant shows a dominant phenotype. A. the genotype may be TT or Tt. B. The genotype may be Tt or tt C. the genotype may be TT. D. the genotype can only be tt.
A. the genotype may be TT or Tt.
A fragment of a chromosome has moved to a non homologous chromosome. This is called_____. A. translocation B. inversion C. deletion D. duplication
A. translocation
Which of the following is an example of monosomy? A. turners syndrome B. klinefelter's syndrome C. down syndrome D. trisomy X
A. turners syndrome
Which bases are purines?
Adenine and Guanine
4 bases in DNA
Adenine, Thymine, Guanine, Cytosine
Telophase
After the chromosome seperates, the cell seals off, Final Phase of Mitosis.
who worked with bacteriophage to discover that DNA was the genetic material of the viruses (2 people)
Alfred Hershay/Martha Chase
universal genetic code
All living things use the same genetic code.
If a parent cell has 48 chromosomes, how many chromosomes will each daughter cell have after mitosis and cytokinesis occurs? A. 24 chromosomes B. 48 chromosomes C. 12 chromosomes D. 96 chromosomes
B. 48 chromosomes
Which of the following is a protein maintained at steady levels throughout the cell cycle that requires cyclin to become active?
B. Cdk
In humans, the presence or absence of dimples is a trait controlled by a single gene. What is the genotype of an individual who is heterozygous for dimples. A. DD B. Dd C. dd D. DI
B. Dd
What are alleles? A. genes for different traits, such as hair color or eye color B. alternative forms of a gene for a single trait such as blue eyes or brown eyes C. the locations of genes on a chromosome D. non-coding regions of a gene
B. alternative forms of a gene for a single trait as blue eyes or brown eyes
Prokaryotes primarily reproduce_____. A. sexually B. by binary fission C. by meiosis D. by pollination
B. by binary fission
Homologous chromosomes_____. A. are identical B. carry information for the same traits C. carry identical alleles. D. align on the metaphase plate in meiosis II
B. carry information for the same traits
An organisms actual gene makeup, often designated by letters like Aa or BB, is the______. A. karyotype B. genotype C. phenotype D. linotype
B. genotype
Which of the following occurs in meiosis but not in mitosis? A. chromosome replication B. homologous chromosomes pair up C. alignment of chromosomes at the equator D. condensation of chromosomes
B. homologous chromosomes pair up
Which of the following provides an example of epistasis? A. recessive genotypes for each of two genes (aabb) results in an albino corn snake B. in rabbits and many other mammals, one genotype (ee) prevents any fur color from developing. C. In Drosophila (fruit flies), white eyes can be due to an X-linked gene or to a combination of other genes. D. In cacti, there are several genes for the type of spines.
B. in rabbits and many other mammals, one genotype (ee) prevents any fur color from developing.
Which of the following lists includes the phases of mitosis in the correct sequence? A. prophase, metaphase, telophase, anaphase B. prophase, metaphase, anaphase, telophase C. telophase, prophase, metaphase, anaphase D. anaphase, metaphase, prophase, telophase
B. prophase, metaphase, anaphase, telophase
Nondisjunction during meiosis I A. does not produce an abnormal number of chromosomes in the gametes B. results in all 4 daughter cells having an abnormal number of chromosomes. C. results in half of the 4 daughter cells having an abnormal number of chromosomes. D. results when sister chromatids fail to separate during anaphase II
B. results in all 4 daughter cells having an abnormal number of chromosomes
Down syndrome is an example of_____. A. abnormality in embryonic development B. trisomy C. monosomy D. polyploidism
B. trisomy
DNA replicates during the______stage of interphase A. mitotic B. G2 C. S D. G1
C. S
Women who have an X linked disorder can pass the gens for the disorder to_____, while men with X linked disorders always pass the genes for the disorders too____. A. only their daughters; only their daughters B. both their daughters and sons; only their sons C. both their daughters and sons; only their daughters. D. both their daughters and sons; their daughters and sons
C. both their daughters and sons; only their daughters.
Cells from advanced malignant tumors often have very abnormal chromosomes and an abnormal number of chromosomes. What might explain the association between malignant tumors and chromosomal abnormalities. A. cancer cells are no longer density dependent B. cancer cells are no longer anchorage dependent. C. cell cycle checkpoints are not in place to stop cells with chromosome abnormalities. D. transformation introduces new chromosomes into cells.
C. cell cycle checkpoints are not in place to stop cells with chromosome abnormalities
A testcross involves an individual exhibiting the dominant phenotype but an unknown genotype being crossed with an individual that has a(n)______genotype A. homozygous dominant B. heterozygous dominant C. homozygous recessive D. any of these choices
C. homozygous recessive
Alignment of the duplicated chromosomes at the equator of the cell is characteristic of_______. A. telophase B. prophase C. metaphase D. anaphase
C. metaphase
Signal protein______stops the cell cycle at G1, when DNA is damaged. A. PDGF B. MPF C. p53 D. RB protein
C. p53
The diploid stage of a plant is called a______. A. gametophyte B. haplotype C. sporophyte D. zygote
C. sporophyte
A research team began a study of a cultured cell line. Their preliminary observations showed them that the cell line did not exhibit either density dependent inhibition or anchorage dependence. What could they conclude right away? A. the cells are unable to form spindle microtubules B. they do not have a nucleus C. The cells show characteristics of cancer cells D. they were originally derived from an elderly organism.
C. the cells show characteristics of cancer cells.
Once a cell completes mitosis, molecular division triggers must be turned off. What happens to MPF during mitosis? A. it is completely degraded B. it is exported from the cell C. the cyclin component of MPF is degraded D. the cdk component of mpf is degraded and exported from the cell
C. the cyclin component of MPF is degraded
What was the most significant conclusion that Mendel drew from his experiments with pee plants? A. Genes are composed of DNA B. there is considerable genetic variation in garden peas. C. traits are inherited in discrete units and are not the results of "blending" D. Recessive genes occur more frequently in the F1 generation that do dominant ones.
C. traits are inherited in discrete units and are not the results of "blending"
Transfer RNA
Carries amino acids to the ribosome and adds them to the growing protein.
G1
Cell growth
g2
Cell prepares to divide
Metaphase
Chromosomes line up in the middle of the cell
homologus chromosomes
Chromosomes that have the same sequence of genes and the same structure
Which bases are pyrimidines?
Cytosine and Thymine
If a sperm cell contains 8 chromosomes, it comes from an animal that has______chromosomes in its somatic cells. A. 4 B. 8 C. 12 D. 16
D. 16
Is it possible for a person with both an X and Y chromosome to be female? A. no. having a Y chromosome always renders a person male B. Yes. as long as a person has at least one X chromosome, they can be considered females. C. No. all females have two X chromosomes D. Yes. a deletion of the SRY gene on the short arm of the Y chromosome prevents the development of male genitals and gonads.
D. Yes. a deletion of the SRY gene on the short arm of the Y chromosome prevents the development of male genitals and gonads.
How is genetic variability accomplished during sexual reproduction? A. crossing over B. independent assortment C. random fertilization of male and female gametes D. all of the above
D. all of the above
In meiosis, homologous chromosomes are seperated during____. A. anaphase II B. prophase I C. mitosis D. anaphase I
D. anaphase I
cancer cells require many nutrients, which are supplied by blood vessels. The growth of new blood vessels to cancerous tissue is called: A. apoptosis B. metastasis C. carcinogenesis D. angiogenesis
D. angiogenesis
Sister chromatids separate from each other during______. A. meiosis I only B. meiosis II only C. mitosis and meiosis I D. mitosis and meiosis II
D. mitosis and meiosis II
The mitotic spindle is a microtubular structure that is involved in_______. A. forming a cell plate between two daughter cells B. triggering the compaction and condensation of chromosomes. C. dissolving the nuclear membrane D. seperation of sister chromatids
D. seperation of sister chromatids
which of the following is an example of polygenic inheritance? A. pink flowers in snapdragons B. the ABO blood group in humans C. white and purple flower color in peas D. skin pigmentation in humans
D. skin pigmentation in humans
Which of the following crosses would ALWAYS result in offspring that only display the dominant phenotype? A. TT x tt B. Tt x Tt C. TT x TT D. B and C E A and C
E. A and C
who found that DNA in the amounts of A&T are equal and C&G are equal?
Erwin Chargoff
who did experiments that first demonstrated transformation of R cells to S cells?
Fredrick Griffith
C pairs with
G
4 enzymes involved in DNA replication
Helicase - unwinds the parental DNA helix DNA polymerse - adds new nucleotides to open strands of parental DNA DNA ligase - joins the newly added nucelotides together to create continous daughter strands Primiase - provides starting point for DNA polymerse to begin with synthesis of new strand
Ribosomes
Makes proteins
Who continued to the work of transformation to discover that DNA was the transforming substance?
Oswald Avery
Anaphase
Phase of mitosis in which the chromosomes separate and move to opposite ends of the cell
what strain of bacteria did fredrick griffith work with?
R-strain/S-strain
Who used X-Ray diffraction to study DNA structure?
Rosalland Franklin
A pairs with
T
Stop codon
The codon that marks the stop of translation.
Prometaphase
The second stage of mitosis, in which the nuclear envelope fragments and the spindle microtubules attach to the kinetochores of the chromosomes.
Who proposed the double helix model?
Watson and Crick
genetic mutation
a change of the sequence of a DNA molecule
Codon
a sequence of three nucleotides that together form a unit of genetic code in a DNA or RNA molecule.
malignant
cancerous
interphase
cell performs normal function
S
chromosomes double to produce sister chromatias attached to centromere
Messenger RNA (mRNA)
copy of a gene
transcription
copying of the code of a gene (DNA) into mRNA
Cytokinesis
division of the cytoplasm
Cytokinesis
division of the cytoplasm (entire cell)
Cytokinesis
division of the cytoplasm to form two separate daughter cells
semi-conservative
each daughter molecule has 1/2of the parent molecule
Semi conservative replication of DNA
each resulting daughter molecule consist of parental strand & newly synthesized daughter strand
Prophase
first and longest phase of mitosis in which the genetic material inside the nucleus condenses and the chromosomes become visible
Carcinogenesis
formation of cancer
Angiogenesis
formation of new blood vessels
Chromatin
granular material visible within the nucleus; consists of DNA tightly coiled around proteins
P site
holds the tRNA carrying the growing polypeptide chain
3 steps involved in translation
initiation - start codons (AUG) elongation - amino acids linked termination - stop codon (UAG/UAA/UGA)
benign
mild, not cancerous
degenerate code
multiple codons encode a single amino acid
Mitosis
part of eukaryotic cell division during which the cell nucleus divides
site on DNA is called?
promoter
g0
resting phase
template strand
side of DNA copied to mRNA
noncoding strand
side of DNA that is not copied
start codon
signals the start of translation and the amino acid methionine
E site
the exit site, where discharged tRNAs leave the ribosome
metastasize
the process by which cancer spreads from one place to another
Chromosomes
threadlike structures made of DNA molecules that contain the genes
Ribosomal RNA (rRNA)
type of RNA that makes up the major part of ribosomes (site of protein synthesis)
translation
using the code from mRNA to make a protein
A site
where tRNA enters
