Biology Unit 4 Review

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How are nucleotide monomers linked together to form a single strand?

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1

How are nucleotide monomers linked together to form a single strand?

Nucleotide monomers are linked together via condensation reactions in which the phosphate grouch of one nucleotide attaches to the sugar of another nucleotide at the 3’ of the 5 carbon sugar, resulting in a phosphodiester bond.

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2

What is RNA and its role in the cell?

RNA is a more versatile single stranded form of nucleic acid that transfers genetic information for decoding

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3

what are sone similarities between DNA and RNA

  • both have adenine, guanine, cytosine

  • both polymers of nucleotides

  • both have five carbon sugars

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4

What are the three components of a nucleotide?

  • phosphate group (circle)

  • 5 carbon pentose sugar (pentagon)

  • nitrogenous base (rectangle)

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5

what are two types of nucleic acids present in cells?

RNA and DNA

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6

What is DNA and what is its role in the cell?

DNA (deoxyribonucleic acid) is a stable double stranded form of nucleic acid and acts as the genetic blueprint of a cell

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7

How doe DNA and RNA differ in terms of composition?

DNA

  • deoxyribose pentose sugar

  • AGCT

    • adenine

    • guanine

    • cytosine

    • thymine

  • double stranded

  • longer

  • antiparallel

  • double helix

RNA

  • ribose pentose sugar

  • AGCU

    • Adenine

    • guanine

    • cytosine

    • uracil

  • single stranded

  • shorter

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8

How are two polynucleotide chains of DNA held together?

Two polynucleotide chains of DNA are held together via hydrogen bonding between complementary nitrogenous bases.

  • Adenine (A) pairs with Thymine (T) via two hydrogen bonds

  • Guanine (G) pairs with Cytosine (C) via three hydrogen bonds

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9

Why must the strands of DNA be running in opposite directions for the bases to be able to pair?

The strands of DNA must be running in opposite directions for the bases to be able to pair because the nitrogenous bases are only complementary in a specific orientation.

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10

How are the two strands of DNA described in terms of their directionality and how do they organise themselves?

The two strands of DNA are described as being antiparallel.

As the antiparallel chains lengthen, the atoms will organise themselves into the most stable energy configuration

  • This atomic arrangement results in the double-stranded DNA forming a double helix

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11

Draw an annotated diagram that shows the organisation of DNA

include base pairs and number of bonds

include the way that individual nucleotides bond through the phosphate groups

make sure strands are antiparallel

label that the two strands form a double helix

<p>include base pairs and number of bonds</p><p>include the way that individual nucleotides bond through the phosphate groups</p><p>make sure strands are antiparallel</p><p>label that the two strands form a double helix</p>
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12

How did Watson and Crick create their DNA model

used other scientists’ findings including Rosalind Franklin to construct models to visualise and assess the viability of potential structures

their models were created using trial and error until they were able to build a scale model of a DNA model and discovered

  • DNA strands are antiparallel and form a double helix

  • DNA strands pair via complementary base pairings (A=T, C=G)

  • Outer edges of bases remain exposed (allows access to replicate and transcriptional proteins )

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13

What is DNA?

DNA is the genetic blueprint which codes for, and determines, the characteristics of an organism, including the physical, behavioural, and physiological features.

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14

How is DNA packaged and organized in a cell?

DNA is packaged and organized into discrete structures called chromosomes.

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15

What is a gene?

A gene is a sequence of DNA that encodes for a specific trait. Traits may also be influenced by multiple genes.

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16

What is the name given to the position of a gene on a particular chromosome?

The position of a gene on a particular chromosome is called the locus (plural = loci).

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17

How do genes determine the characteristics of an organism?

Genes contain the information necessary to produce specific proteins, which in turn determine the traits of an organism.

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18

What are alleles and how do they differ from one another?

Alleles are alternative forms of a gene that code for the different variations of a specific trait.

As alleles are alternative forms of the one gene, they possess very similar gene sequences

  • Alleles only differ from each other by one or a few bases

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19

What is an example of a gene that has alleles that encode different variations of a trait?

The gene for eye colour has alleles that encode different shades/pigments.

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20

What is a gene mutation?

A gene mutation is a change in the nucleotide sequence of a section of DNA coding for a specific trait.

and also forms new alleles

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21

What is a beneficial mutation?

Missense Mutation

A beneficial mutation changes the gene sequence (missense mutations) to create new variations of a trait that is an advantage to the organism.

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22

What is a detrimental mutation?

Nonsense Mutation

A detrimental mutation truncates the gene sequence (nonsense mutations) to abrogate the normal function of a trait, which can negatively impact the organism's survival or reproductive success.

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23

What is a neutral mutation?

Silent Mutation

A neutral mutation has no effect on the functioning of the specific feature (silent mutations), and does not confer an advantage or disadvantage to the organism.

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24

What is a genome?

The genome is the totality of genetic information of a cell, organism or organelle

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25

What does the human genome consist of?

  • 46 chromosomes (barring aneuploidy)

  • ~3 billion base pairs

  • ~21,000 genes

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26

What was the Human Genome Project and what were the outcomes?

  • an international cooperative venture established to sequence the human genome

  • Mapping – The number, location, size and sequence of human genes

  • Screening – This has allowed for the production of specific gene probes to detect sufferers and carriers of genetic diseases

  • Medicine – The discovery of new proteins have lead to improved treatments

  • Ancestry – Comparisons with other genomes have provided insight into the origins, evolution and migratory patterns of man

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27

Create the table of gene comparisons between different species

  • number of genes present in an organism will differ between species

  • not an valid indicator of biological complexity

Number of Genes Comparison

Bacteria = 4,200

Chicken = 17,000

Human = 21,000

Water Flea = 31,000

Rice = 38,000

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28

What is the DNA organisation of prokaryotes? draw and label diagram

  • Prokaryotes do not possess a nucleus – instead genetic material is found free in the cytoplasm in a region called the nucleoid, bacterial chromosomes have long uncoiled DNA

  • Some have shorter DNA strands called plasmids that only contain a few genes and are capable of self-replication

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29

What is the organisation of DNA in a Eukaryotic cell?

  • consist of multiple linear molecules of DNA that are associated with histone proteins

    • DNA coiled and wrapped around a set of 8 histones form a nucleosome

    • where genes are found and is a locus for gene position

  • has pairs of chromosomes = homologous chromosomes

    • same genes, loci, length, centromere position

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30

What is a homologous pair?

sexually reproducing organisms inherit their genetic sequences from both parents

  • organisms possess two copies of each chromosome (1 mom and 1 dad)

  • same genes at the same loci but not the always the same allele

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31

what are the difference between diploids and haploids?

as sexually reproducing organisms receive genetic material from both parents, that have two sets of chromosomes (23 pairs of 46 chromosomes), called diploids

however, to reproduce, organisms must create gametes with half the number of chromosomes in order to fuse with another chromosome’s gametes, called haploids

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32

What does a diploid possess?

  • Nuclei possessing pairs of homologous chromosomes

  • These nuclei will possess two gene copies (alleles) for each trait

  • All somatic (body) cells in the organism will be diploid, with new diploid cells created via mitosis

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33

What does a haploid possess?

  • Nuclei possessing only one set of chromosomes

  • These nuclei will possess a single gene copy (allele) for each trait

  • only gametes

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34

What is a heterosome?

  • sex is determined by a pair of chromosomes called the sex chromosomes (or heterosomes) 23rd pair in a karyogram

  • Female is XX

  • Male is XY (y is short)

  • female is default without the y present

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35

what is an autosome?

any other chromosome in the organism and do not determine sex

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36

What is a karyogram?

a process to determine the number and types of chromosomes in a eukaryotic cell

  • chromosomes obtained by chorionic villus sampling or amniocentesis (placenta or white blood cells)

  • inducing cell division then arresting mitosis when chromosomes are supercoiled in P1

  • stained to generate an image

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37

How are karyograms organised and used for?

  • chromosomes of an organism are arranged into homologous pairs according to size, length

  • Determine the gender of the unborn child (via identification of the sex chromosomes)

  • Test for chromosomal abnormalities

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38

What is down syndrome?

  • disjunction of chromosome 21, where there is an extra chromosome

  • The extra genetic material causes mental and physical delays in the way the child develops

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39

What is autoradiography?

  • process to measure the length of DNA

    1. grow prokaryotic cells in radioactive thymine and there is no T in RNA

    2. DNA extracted from cells and fixed onto photographic paper

    3. radiation released and after a period of exposure an image appears on the page and can be visualised

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40

What are the chromosome numbers in different species?

Homo Sapian (Human) = 46

Pan Troglodytes (Chimpanzee) = 48

Canis Familiarts (Dog) = 78

Oryza Sativa (Rice) = 24

Parascaris Equorum (Roundworms) = 4

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41

What are the genome sizes in in different chromosomes?

T2 Phage (Virus) = 180,000 base pairs

Escherichia Coli (Bacteria) = 4.6 million

Drosophilia Melanogaster (fruit fly) = 130 million

Homo Sapien (Human) = 3.2 billion

Paris Japonica (Plant) = 150 billion

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42

What is meiotic division

  • Meiosis is the process by which sex cells (gametes) are made in the reproductive organs

  • reduction division of diploid cells into 4 genetically unique haploid cells

two cellular divisions

  1. halve chromosomes in Anaphase 1

  2. chromosomes split into chromatids in Anaphase 2

<ul><li><p>Meiosis is the process by which sex cells (gametes) are made in the reproductive organs</p></li><li><p>reduction division of diploid cells into 4 genetically unique haploid cells</p></li></ul><p>two cellular divisions</p><ol><li><p>halve chromosomes in Anaphase 1</p></li><li><p>chromosomes split into chromatids in Anaphase 2</p></li></ol>
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43

What are sister chromatids?

replication to form chromosome in S phase, genetically identical DNA molecules

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44

What processes occur in Meiosis 1?

The first meiotic division is a reduction division (diploid  haploid) in which homologous chromosomes are separated

  • P-I: Chromosomes condense, nuclear membrane dissolves, homologous chromosomes form bivalents, crossing over occurs

  • M-I: Spindle fibres from opposing centrosomes connect to bivalents (at centromeres) and align them along the middle of the cell

  • A-I: Spindle fibres contract and split the bivalent, homologous chromosomes move to opposite poles of the cell

  • T-I: Chromosomes decondense, nuclear membrane may reform, cell divides (cytokinesis) to form two haploid daughter cells

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45

What occurs in Meiosis 2?

The second division separates sister chromatids (these chromatids may not be identical due to crossing over in prophase I)

  • P-II: Chromosomes condense, nuclear membrane dissolves, centrosomes move to opposite poles (perpendicular to before)

  • M-II: Spindle fibres from opposing centrosomes attach to chromosomes (at centromere) and align them along the cell equator

  • A-II: Spindle fibres contract and separate the sister chromatids, chromatids (now called chromosomes) move to opposite poles

  • T-II: Chromosomes decondense, nuclear membrane reforms, cells divide (cytokinesis) to form four haploid daughter cells

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46

What is crossing over?

  • when two homologous chromosomes pair up in prophase 1 and one of each sister chromatids cross over and trade genetic material, then when separated in metaphase 1, each chromatid is genetically unique. and sisters are no longer identical

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47

What is random assortment?

the order line up of chromosomes in the equator of the cell in metaphase with mom left and dad right or dad left and mom right

  • order is completely random

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48

What is non-disjuction and where are the two places they can occur in meiosis?

  • chromosomes failing to spearate correctly, resulting in gametes with one extra or one less chromosome

occurs via:

  • Failure of homologues to separate in Anaphase I (resulting in four affected daughter cells)

  • Failure of sister chromatids to separate in Anaphase II (resulting in only two daughter cells being affected)

<ul><li><p>chromosomes failing to spearate correctly, resulting in gametes with one extra or one less chromosome</p></li></ul><p>occurs via:</p><ul><li><p>Failure of homologues to separate in Anaphase I (resulting in four affected daughter cells)</p></li><li><p>Failure of sister chromatids to separate in Anaphase II (resulting in only two daughter cells being affected)</p></li></ul>
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49

What was Mendel’s experiment?

  • he crossed varieties of purebred peaplants, collected and grew seeds to determine characteristics

  • then crossed the offspring with each other in over 5000 repreated experiments creating reliable data and consistency

Method

  1. crossed parents with different traits

    1. PP x pp

  2. F1 (first gen) 100% one trait: Pp

  3. crossed 2 F1 plants: Pp x Pp

  4. F2 results in 3 dominant traits and 1 recessive

    1. 3:1 → 75% and 25%

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50

What is the Law of Dominance?

  • alleles can be dominant or recessive

  • the dominant phenotype is expressed with one or two dominant alleles: homozygous dominant or heterozygous genotypes. PP, Pp

  • the recessive phenotype is expressed with two recessive alleles: homozygous recessive genotype. pp

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51

What is the law of Segregation?

  • each phenotype is controlled by two alleles

  • only one allele for a trait is passed on through gametes to offspring from each parent

  • offspring receive one allele for a trait from each parent

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52

What is the Law of Independent Assortment?

  • the inheritance of one gene does not affect the inheritance of another gene

  • homologous chromosomes undergo random orientation in Metaphase I

  • genes on non-homologous chromosomes are randomly assorted in Anaphase I

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53

What is a haploid gamete?

only carry one allele of each gene

the two alleles of each gene is separated into different haploids during meiosis

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54

what are Punnett grids?

A monohybrid cross determines the allele combinations for potential offspring for one gene only

<p>A monohybrid cross determines the allele combinations for potential offspring for <u><strong>one</strong></u> <u>gene only</u></p>
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55

What is cystic fibrosis?

  • autosomal recessive disease

  • extra info: thick and sticky mucus clogs bronchioles and secretory ducts; leads to respiratory failure and pancreatic cysts

<p></p><ul><li><p>autosomal recessive disease</p></li><li><p>extra info: thick and sticky mucus clogs bronchioles and secretory ducts; leads to respiratory failure and pancreatic cysts</p><p></p></li></ul>
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56

What is Huntington’s disease?

  • autosomal dominant disease

  • extra info: neurodegenerative disease (neurons in the brain break down); manifests in mid-life.

<p></p><ul><li><p>autosomal dominant disease</p></li><li><p>extra info: neurodegenerative disease (neurons in the brain break down); manifests in mid-life.</p></li></ul><p></p>
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57

What is sickle cell anaemia?

  • autosomal codominant disease

  • causes fibrous hemoglobin rather than globular; cells become sickle shaped; leads to poor oxygen transport, clogged vessels, and malaria resistance

<p></p><ul><li><p>autosomal <u>codominant</u> disease</p></li><li><p>causes fibrous hemoglobin rather than globular; cells become sickle shaped; leads to poor oxygen transport, clogged vessels, and malaria resistance</p></li></ul>
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58

What is Hemophilia and Red-green colorblindness?

  • sex-linked recessive disorders

  • extra info: hemophilia is a blood clotting disorder; colorblindness is the inability to perceive certain colors

<p></p><ul><li><p><u>sex-linked recessive</u> disorders</p></li><li><p>extra info: hemophilia is a blood clotting disorder; colorblindness is the inability to perceive certain colors</p></li></ul><p></p>
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59

What are the Human ABO blood types?

  • multiple alleles (≥2): IA IB i

  • autosomal dominant-recessive and codominant

  • controls type of glycoprotein used for cell recognition

<p></p><ul><li><p>multiple alleles (≥2): 		IA 	IB 	i</p></li><li><p>autosomal dominant-recessive and codominant</p></li><li><p>controls type of glycoprotein used for cell recognition</p><p></p></li></ul>
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60

What are the inheritance patterns?

knowt flashcard image
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61

What is a pedigree chart and what does is do?

A pedigree is a chart of the genetic history of a family over several generations

  • Males are represented as squares, while females are represented as circles

  • Shaded symbols mean an individual is affected by a condition, while an unshaded symbol means they are unaffected

  • A horizontal line between man and woman represents mating and resulting children are shown as offshoots to this line

  • Generations are labeled with roman numerals and individuals are numbered according to age (oldest on the left)

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