3 2 Chromosomes Essential idea Chromosomes carry genes

3. 2 Chromosomes Essential idea: Chromosomes carry genes in a linear sequence that is shared by members of a species. The asian rice (Oryza sativa) genome can be seen illustrated above. Rice possesses up 63, 000 genes divided up between 12 chromosomes. Below is a map of part of the first chromosome showing the gene loci present on it. Although different varieties (estimated 40, 000 worldwide) will possess different alleles for genes, all individuals will share the same twelve chromosomes and the alleles of each variety will occur at the same position on same chromosome, i. e. at the same gene loci. By Chris Paine http: //www. cambia. org/daisy/Rice. Genome/2959/version/default/part/Im age. Data/data/Rice%20 chromosomes. png http: //rgp. dna. affrc. go. jp/E/publicdata/naturegenetics/chr 01. gif https: //bioknowledgy. weebly. com/

Understandings Statement 3. 2. U 1 Prokaryotes have one chromosome consisting of a Guidance circular DNA molecule. 3. 2. U 2 Some prokaryotes also have plasmids but eukaryotes do not. 3. 2. U 3 Eukaryote chromosomes are linear DNA molecules associated with histone proteins. 3. 2. U 4 In a eukaryote species there are different chromosomes that carry different genes. 3. 2. U 5 Homologous chromosomes carry the same sequence of genes but not necessarily the same alleles of those genes. 3. 2. U 6 Diploid nuclei have pairs of homologous chromosomes. The two DNA molecules formed by DNA 3. 2. U 7 Haploid nuclei have one chromosome of each pair. replication prior to cell division are considered to be sister chromatids until the splitting of the centromere at the start of anaphase. After this, they are individual chromosomes. 3. 2. U 8 The number of chromosomes is a characteristic feature of members of a species. 3. 2. U 9 A karyogram shows the chromosomes of an organism The terms karyotype and karyogram have different in homologous pairs of decreasing length. meanings. Karyotype is a property of a cell - the number and type of chromosomes present in the nucleus, not a photograph or diagram of them. 3. 2. U 10 Sex is determined by sex chromosomes and autosomes are chromosomes that do not determine sex.

Applications and Skills Statement 3. 2. A 1 Cairns’ technique for measuring the length of DNA 3. 2. A 2 3. 2. A 3 3. 2. A 4 3. 2. S 1 Guidance molecules by autoradiography. Comparison of genome size in T 2 phage, Escherichia Genome size is the total length of DNA in an coli, Drosophila melanogaster, Homo sapiens and Paris organism. The examples of genome and japonica. chromosome number have been selected to allow points of interest to be raised. Comparison of diploid chromosome numbers of Homo sapiens, Pan troglodytes, Canis familiaris, Oryza sativa, Parascaris equorum. Use of karyograms to deduce sex and diagnose Down syndrome in humans. Use of databases to identify the locus of a human gene and its polypeptide product.

Review: 1. 2. U 1 Prokaryotes have a simple cell structure without compartmentalization. Ultrastructure of E. coli as an example of a prokaryote http: //www. tokresource. org/tok_classes/biobiobio/biomenu/metathink/required_drawings/index. htm • E. Coli is a model organism used in research and teaching. Some strains are toxic to humans and can cause food poisoning. • We refer to the cell parts/ultrastructure of prokaryotes rather than use the term organelle as very few structures in prokaryotes are regarded as organelles.

3. 2. U 1 Prokaryotes have one chromosome consisting of a circular DNA molecule. 3. 2. U 2 Some prokaryotes also have plasmids but eukaryotes do not. Prokaryotes have two types of DNA: • single chromosome • plasmids The single prokaryotic chromosome is coiled up and concentrated in the nucleoid region. Because there is only a single chromosome there is only one copy of each gene. A copy of the chromosome is made just before cell division (by binary fission). https: //commons. wikimedia. org/wiki/File: Plasmid_%28 english%29. svg https: //commons. wikimedia. org/wiki/File: Average_prokaryote_cell-_en. svg

3. 2. U 2 Some prokaryotes also have plasmids but eukaryotes do not. Prokaryote bacteria may have plasmids, but these structures are not found in eukaryotes. * Features of Plasmids: • Naked DNA - not associated with histone proteins • Small circular rings of DNA • Not responsible for normal life processes – these are controlled by the nucleoid chromosome • Commonly contain survival characteristics, e. g. antibiotic resistance • Can be passed between prokaryotes • Can be incorporated into the nucleoid chromosome This exchange of genetic material allows bacteria to evolve new features within a generation (horizontal gene transfer) n. b. Plasmid characteristics mean that Scientists have found them useful in genetic engineering. Plasmids can be used to transfer genes into bacteria. *Scientists have found plasmids in archea and eukaryota, but very rarely. https: //commons. wikimedia. org/wiki/File: Plasmid_%28 english%29. svg https: //en. wikipedia. org/wiki/File: PBR 322_plasmid_showing_restriction_sites_and_resistance_genes. jpg

Review: 3. 1. U 1 A gene is a heritable factor that consists of a length of DNA and influences a specific characteristic. AND 3. 1. U 2 A gene occupies a specific position on a chromosome. AND 3. 1. U 3 The various specific forms of a gene are alleles. AND 3. 1. U 4 Alleles differ from each other by one or only a few bases. A gene is a heritable factor that controls or influences a specific characteristic, consisting of a length of DNA occupying a particular position on a chromosome (locus) http: //learn. genetics. utah. edu/content/m olecules/gene/

3. 2. A 1 Cairns’ technique for measuring the length of DNA molecules by autoradiography. John Cairns produced images of DNA molecules from Escherichia coli (E. coli) • E. Coli was grown with thymidine containing a radioactive isotope of hydrogen (the DNA was labelled). • The E. Coli cells were broken open by enzymes to release the cell contents • The cell contents were applied to a photographic emulsion and placed in the dark (for two months) • The radioative isotopes reacted with the emulsion (similarly to light does) • Dark areas on the photographic emulsion indicated the presence of DNA • The images showed that E. coli possesses a single circular chromosome which is 1, 100 μm long (E. coli cells have a length of only 2 μm) • Cairns images also provided evidence to support theory of semi-conservative replication n. b. The insights and improvements in theory would not have been possible without the development and use of autoradiography (exposure of photographic emulsion by radioactive isotopes). http: //schaechter. asmblog. org/. a/6 a 00 d 8341 c 5 e 1453 ef 017 c 37 accbac 970 b- 300 wi

3. 2. A 1 Cairns’ technique for measuring the length of DNA molecules by autoradiography. John Cairns produced images of DNA molecules from Escherichia coli (E. coli) http: //schaechter. asmblog. org/. a/6 a 00 d 8341 c 5 e 1453 ef 017 c 37 accbac 970 b- 300 wi

3. 2. A 1 Cairns’ technique for measuring the length of DNA molecules by autoradiography. John Cairns produced images of DNA molecules from Escherichia coli (E. coli) http: //schaechter. asmblog. org/. a/6 a 00 d 8341 c 5 e 1453 ef 017 c 37 accbac 970 b- 300 wi

3. 2. U 3 Eukaryote chromosomes are linear DNA molecules associated with histone proteins. Linear strands of DNA held in a helix Eukaryotic chromosomes may be up to 85 mm in length. To fit such a length of DNA into a nucleus with a diameter of 10 μm it has to be coiled in a predictable fashion that still allows for processes, such as replication and protein synthesis, to occur. Nucleosomes are formed by wrapping DNA around histone proteins The genetic material of eukaryotic cells consist of multiple linear molecules of DNA that are associated with histone proteins The packaging of DNA with histone proteins results in a greatly compacted structure, allowing for more efficient storage n. b. Prokaryotic DNA is, like eukaryotic DNA, supercoiled, but differently: Prokaryotic DNA maybe associated with proteins, but it is not organised by histones and is therefore sometimes referred as being ‘naked’. http: //en. wikipedia. org/wiki/File: DNA_to_Chromatin_Formation. jpg

3. 2. U 3 Eukaryote chromosomes are linear DNA molecules associated with histone proteins. Organization of eukaryotic chromosomes can be summarized as follows: • DNA is complexed with eight histone proteins (an octamer) to form a complex called a nucleosome • Nucleosomes are linked by an additional histone protein (H 1 histone) to form a string of chromatosomes • These then coil to form a solenoid structure (~6 chromatosomes per turn) which is condensed to form a 30 nm fibre • These fibres then form loops, which are compressed and folded around a protein scaffold to form chromatin • Chromatin will then supercoil during cell division to form chromosomes that are visible (when stained) under microscope

3. 2. U 4 In a eukaryote species there are different chromosomes that carry different genes. Eukaryotes possess multiple chromosomes. All individuals of a species possess the same chromosomes, with the same gene loci. For example all humans have twenty three pairs. Chromosomes can vary by: • Length – the number of base pairs in the DNA molecule • Position of the centromere • Genes occur at a specific locus (location), i. e. it is always found at the same position on the same chromosome (the locus and genes possessed vary between species) https: //public. ornl. gov/site/gallery/originals/

3. 2. S 1 Use of databases to identify the locus of a human gene and its polypeptide product. n. b. the list of polypeptides reflects the examples you were required to learn for 2. 4. A 1 Use the online database (http: //www. genecards. org/) to search for the genes and the loci responsible for synthesising the following polypeptides: • • Rhodopsin 3 different types of Collagen Insulin One other protein of your choice OR Gen. Bank can be used to identify the specific location of a gene on any given https: //www. ncbi. nlm. nih. gov/genbank/ chromosome. To identify a specific gene locus: Change the search parameter from nucleotide to gene and type in the name of the gene of interest Choose the species of interest (i. e. Homo sapiens) and click on the link (under ‘Name / Gene ID’) Scroll to the ‘Genomic context’ section to determine the specific position of the gene locus A visual profile can be generated by clicking on ‘Map Viewer’ link and looking at the Ideogram on the left side

3. 2. U 8 The number of chromosomes is a characteristic feature of members of a species. The chromosome number is an important characteristic of the species. Organisms with different numbers of chromosomes are unlikely to be able to interbreed successfully Chromosomes can fuse or spit during evolution – these are rare events and chromosome numbers tend to stay the same for millions of years. The number of chromosomes possessed by a species is known as the N number, for example humans have 23 different chromosomes. https: //commons. wikimedia. org/wiki/File: NHGRI_human_male_karyotype. png

3. 2. U 8 The number of chromosomes is a characteristic feature of members of a species. Chromosome number is a characteristic feature of members of a particular species • Organisms with different diploid numbers are unlikely to be able to interbreed (cannot form homologous pairs in zygotes) • In cases where different species do interbreed, offspring are usually infertile (cannot form functional gametes) • For instance, a horse (diploid = 64) and a donkey (diploid = 62) may produce an infertile mule (non-diploid = 63)

3. 2. U 6 Diploid nuclei have pairs of homologous chromosomes. AND 3. 2. U 7 Haploid nuclei have one chromosome of each pair. A diploid nucleus has two of each chromosome (2 N). Therefore diploid nuclei have two copies of every gene, apart from the genes on the sex chromosomes. For example the Diploid nuclei in humans contain 46 chromosomes. The fertilized egg cell (Zygote) therefore is a diploid (2 N) cell containing two of each chromosome. Gametes are the sex cells that fuse together during sexual reproduction. Gametes have haploid nuclei, so in humans both egg and sperm cells contain 23 chromosomes. n. b. Diploid nuclei are less susceptible to genetic diseases: have two copies of a gene means organisms are more likely to possess at least one healthy copy. A haploid nucleus has one of each chromosome (N). Haploid nuclei in humans have 23 different chromosomes. http: //www. biologycorner. com/resources/diploid_life_cycle. gif

3. 2. U 6 Diploid nuclei have pairs of homologous chromosomes. AND 3. 2. U 7 Haploid nuclei have one chromosome of each pair. Diploid Nuclei possessing pairs of homologous chromosomes are diploid (symbolised by 2 n) • 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 • Diploid cells are present in most animals and many plants Haploid Nuclei possessing only one set of chromosomes are haploid (symbolised by n) • These nuclei will possess a single gene copy (allele) for each trait • All sex cells (gametes) in the organism will be haploid, and are derived from diploid cells via meiosis • Haploid cells are also present in bacteria (asexual) and fungi (except when reproducing)

3. 2. A 3 Comparison of diploid chromosome numbers of Homo sapiens, Pan troglodytes, Canis familiaris, Oryza sativa, Parascaris equorum. Humans (Homo sapiens) 46 46 is the number of diploid chromosomes in each human cell. https: //upload. wikimedia. org/wikipedia/commons/f/f 6/Usain_Bolt_100_m_Daegu_2011. jpg

3. 2. A 3 Comparison of diploid chromosome numbers of Homo sapiens, Pan troglodytes, Canis familiaris, Oryza sativa, Parascaris equorum. Asian rice (Oryza sativa) Equine roundworm (Parascaris equorum http: //pic 20. picturetrail. com/VOL 176/4853602/20795519/357799225. j How many diploid chromosomes does each https: //commons. wikimedia. org/wiki/File: Hinohikari. jpg species possess? Domestic Dog (Canis familiaris) Chimpanzee (Pan troglodytes) https: //commons. wikimedia. org/wiki/File: Dog_%28 Canis_lupus_fa miliaris%29_%281%29. jpg https: //commons. wikimedia. org/wiki/File: Pan_troglodytes_Sweetwaters_Ch mpanzee_Sanctuary, _Kenya. jpg

3. 2. A 3 Comparison of diploid chromosome numbers of Homo sapiens, Pan troglodytes, Canis familiaris, Oryza sativa, Parascaris equorum. Asian rice (Oryza sativa) 24 2 Equine roundworm (Parascaris equorum http: //pic 20. picturetrail. com/VOL 176/4853602/20795519/357799225. j How many diploid chromosomes does each https: //commons. wikimedia. org/wiki/File: Hinohikari. jpg species possess? Domestic Dog (Canis familiaris) 78 48 https: //commons. wikimedia. org/wiki/File: Dog_%28 Canis_lupus_fa miliaris%29_%281%29. jpg Chimpanzee (Pan troglodytes) https: //commons. wikimedia. org/wiki/File: Pan_troglodytes_Sweetwaters_Ch mpanzee_Sanctuary, _Kenya. jpg

3. 2. U 5 Homologous chromosomes carry the same sequence of genes but not necessarily the same alleles of those genes.

3. 2. U 5 Homologous chromosomes carry the same sequence of genes but not necessarily the same alleles of those genes. ns, are a m u h g n i ls, includ otes are not for a m m a m g extra: r eukary n e i t h s t e o r y e t n rticular n a a I p M. a s f o m s s i rgan six copie e v a diploid o h y a some m two. f o example d a e t s ome in chromos

3. 2. U 5 Homologous chromosomes carry the same sequence of genes but not necessarily the same alleles of those genes. Sexually reproducing organisms inherit their genetic sequences from both parents • This means that these organisms will possess two copies of each chromosome (one of maternal origin ; one of paternal origin) • These maternal and paternal chromosome pairs are called homologous chromosomes Homologous chromosomes are chromosomes that share: • The same structural features (e. g. same size, same banding patterns, same centromere positions) • The same genes at the same loci positions (while the genes are the same, alleles may be different) Homologous chromosomes must be separated in gametes (via meiosis) prior to reproduction, in order to prevent chromosome numbers continually doubling with each generation

3. 2. U 10 Sex is determined by sex chromosomes and autosomes are chromosomes that do not determine sex. Sex Determination: It’s all about X and Y… Humans have 23 pairs of chromosomes in diploid somatic cells (n=2). 22 pairs of these are autosomes, which are homologous pairs. One pair is the sex chromosomes. XX gives the female gender, XY gives male. Karyotype of a human male, showing X and Y chromosomes: http: //en. wikipedia. org/wiki/Karyotype SRY The X chromosome is much larger than the Y. X carries many genes in the non-homologous region which are not present on Y. The presence and expression of the SRY gene on Y leads to male development. Chromosome images from Wikipedia: http: //en. wikipedia. org/wiki/Y_chromosome

3. 2. U 10 Sex is determined by sex chromosomes and autosomes are chromosomes that do not determine sex. Sex Determination: It’s all about X and Y… Chromosome pairs segregate in meiosis. Females (XX) produce only eggs containing the X chromosome. Males (XY) produce sperm which can contain either X or Y chromosomes. Segregation of the sex chromosomes in meiosis. gametes X Y X XX XY Therefore there is an even chance* of the offspring being male or female. SRY gene determines maleness. Find out more about its role and just why do men have nipples? http: //www. hhmi. org/biointeractive/gender/lectures. html Chromosome images from Wikipedia: http: //en. wikipedia. org/wiki/Y_chromosome

3. 2. A 2 Comparison of genome size in T 2 phage, Escherichia coli, Drosophila melanogaster, Homo sapiens and Paris japonica. Humans (Homo sapiens) 3. 2 billion base pairs Genome size is the total number of DNA base pairs in one copy of a haploid genome. https: //upload. wikimedia. org/wikipedia/commons/f/f 6/Usain_Bolt_100_m_Daegu_2011. jpg

3. 2. A 2 Comparison of genome size in T 2 phage, Escherichia coli, Drosophila melanogaster, Homo sapiens and Paris japonica. Canopy plant (Paris japonica) T 2 phage Escherichia coli https: //s-media-cacheak 0. pinimg. com/736 x/2 d/0 e/3 e/2 d 0 e 3 ea 8 ddf 652 f 25 a 5 f 2 c 3 b 1050 af 79. jpg n. b. T 2 phage (orange) is a virus that attacks E. Coli bacterium (green and white). What is the genome size of each species? Fruit fly (Drosophila melanogaster) https: //commons. wikimedia. org/wiki/File: Dr osophila_melanogaster__side_%28 aka%29. jpg https: //commons. wikimedia. org/wiki/File: Paris_japonica_Kinugasasou_in_Hakusan_2003_7_27. jpg

3. 2. A 2 Comparison of genome size in T 2 phage, Escherichia coli, Drosophila melanogaster, Homo sapiens and Paris japonica. Canopy plant (Paris japonica) 150 billion base pairs T 2 phage 164 thousand base pairs Escherichia coli 4. 6 million base pairs https: //s-media-cacheak 0. pinimg. com/736 x/2 d/0 e/3 e/2 d 0 e 3 ea 8 ddf 652 f 25 a 5 f 2 c 3 b 1050 af 79. jpg n. b. T 2 phage (orange) is a virus that attacks E. Coli bacterium (green and white). What is the genome size of each species? Fruit fly (Drosophila melanogaster) 130 million base pairs https: //commons. wikimedia. org/wiki/File: Dr osophila_melanogaster__side_%28 aka%29. jpg https: //commons. wikimedia. org/wiki/File: Paris_japonica_Kinugasasou_in_Hakusan_2003_7_27. jpg

3. 2. U 9 A karyogram shows the chromosomes of an organism in homologous pairs of decreasing length. Karyogram is a diagram or photograph of the chromosomes present in a nucleus (of a eukaryote cell) arranged in homologous pairs of decreasing length. Karyotype is a property of the cell described by the number and type of chromosomes present in the nucleus (of a eukaryote cell). a Karyogram is a diagram that shows, or can be used to determine, the karyotype. y it r t o t click http: //learn. genetics. utah. edu/content/chromosomes/karyotype/

3. 2. U 9 A karyogram shows the chromosomes of an organism in homologous pairs of decreasing length. Karyotypes are the number and types of chromosomes in a eukaryotic cell – they are determined via a process that involves: Harvesting cells (usually from a foetus or white blood cells of adults) Chemically inducing cell division, then arresting mitosis while the chromosomes are condensed The stage during which mitosis is halted will determine whether chromosomes appear with sister chromatids or not The chromosomes are stained and photographed to generate a visual profile that is known as a karyogram The chromosomes of an organism are arranged into homologous pairs according to size (with sex chromosomes shown last)

3. 2. A 4 Use of karyograms to deduce sex and diagnose Down syndrome in humans. Can you use a karyogram to determine sex and whether a person has Down Syndrome? Karyotypes are the number and types of chromosomes in a eukaryotic cell – they are determined via a process that involves: • Harvesting cells (usually from a fetus or white blood cells of adults) • Chemically inducing cell division, then arresting mitosis while the chromosomes are condensed • The stage during which mitosis is halted will determine whether chromosomes appear with sister chromatids or not The chromosomes are stained and photographed to generate a visual profile that is known as a karyogram • The chromosomes of an organism are arranged into homologous pairs according to size (with sex chromosomes shown last)

Bibliography / Acknowledgments Bob Smullen