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Transcript
Mitosis, Meiosis and Inheritance Chromosomes One linear strand of DNA is coiled tightly around proteins. This is how 3m of DNA material can fit into a nucleus • In body cells (somatic cells, not gametes-sex cells) each cell has 2 copies of every chromosome= diploid number (2n) • Humans have 46 in total -22 pairs are the same in males and females and the 23rd pair determines the sex (XX for females and XY for males) The cell cycle • Series of events in which cells grow and divide to produce two identical daughter cells -Interphase -Mitosis -Cytokinesis • Includes growth and division First up there is interphase!!! Sister chromatids • Before S phase chromosomes are composed of one DNA molecule • During S phase chromosomes replicate – two DNA molecules • These molecules are called chromatids • Sister chromatids are held together by a centromere • Sister chromatids end up in two genetically identical daughter cells Mitosis-division of the nucleus • 4 phases • Produces 2 identical daughter cells from the parent cell • Each daughter cell has the exact same genetic information as parent • Same number and type of chromosomes as parent Prophase • Chromatin coils tightly in chromosomesbecomes visible • Nuclear membrane disintegrates • Centrosomes (organelle) move to opposite poles of the cell-produce microtubules that link poles of the cell Metaphase Microtubules attach to sister chromatids at centromere Sister chromatids lie in the equator of the cell pulled in line by the microtubules Anaphase Two sister chromatids split at the centromere Chromosomes move to opposite poles (ends) of the cell pulled by microtubules that contract Telophase • Chromosomes elongate to form chromatin and re not visible • Chromosomes are at each pole • Nuclear membrane begins to reform around each set of chromosomes Cytokinesis-division of cytoplasm and cell Animal Cells • Inward pinching of cell membrane to form cleavage furrows Plant Cells • Plant cells have a firm cell wall and form a cell plate https://www.youtube.com/watch?v=ofjyw7ARP1c Animations http://www.sumanasinc.com/webcontent/animations/content/mit osis.html • https://highered.mheducation.com/sites/007 2495855/student_view0/chapter2/animation_ _mitosis_and_cytokinesis.html Meiosis • Sexual reproduction is the fusion of male and female gametes (sex cells) to form a zygote (fertilised egg) • A fertilised egg contains a combination of genetic material from both parents-50% of inherited characteristics from the maternal (mother’s side) and 50% from the paternal (father’s side) • Our cells contain genetic information from both parents through a process called meiosis • For humans to pass on genes there needs to be a method to divide a parents 46 chromosomes (diploid) to 23 (haploid)=meiosis • Meiosis-produces gametes with half the number of chromosomes-they only have one copy of each chromosome in each cell (haploid) • Gamete- sex cells (sperm and ovum-egg) • This is so when gametes (sperm and egg cells) come together at fertilisation the total number of chromosomes, 46, will be restored. • Meiosis occurs in reproductive organs called gonads (ovaries and testes) • Meiosis= 2 stages - Meiosis 1 is one cell divides into 2 – Crossing over occurs which swaps regions of DNA between matching chromosomes (homologous chromosomes) so a pair of chromosomes makes 4 unique sister chromatids-produces variation in offspring (Prophase 1) – Independent assortment -Homologous chromosomes (matching-one maternal and one paternal) line up randomly on the equator and are separated so each pole receives a mixture of maternal and paternal chromosomes-gametes receive different combination of genesproduces variation in offspring (Metaphase 1) - Meiosis 2 is 2 cells into 4 (haploid) - sister chromatids are separated • Fertilisation =any male gamete can combine with any female gamete-completely random-produces variation in offspring Variation in offspring Crossing overProphase I Independent assortment-Metaphase I Meiosis I 1 diploid cell 2 haploid cells Meiosis 2 4 haploid cells • https://www.youtube.com/watch?v=nMEyeKQClqI • http://highered.mheducation.com/sites/0072495855 /student_view0/chapter3/animation__how_meiosis _works.html Animations http://www.cellsalive.com/meiosis_js.htm http://www.sumanasinc.com/webcontent/animations/ content/meiosis.html Comparing mitosis and meiosis https://highered.mheducation.com/sites/9834092339/ student_view0/chapter52/comparison_of_meiosis_and _mitosis.html Twins-identical and non-identical • http://www.sabah.edu.my/csm07010/form%205/twins.htm • Results in a change of the DNA code (base sequence) or chromosome number • Can cause a change in hair colour, skin colour = harmless • Others can impede or stop cell function, others can affect cell division (cause tumours and cancer) = harmful • If a change during meiosis, can be passed on to offspring- variation in species eg. Down’s syndrome-has 3 copies of chromosome 21 • Mutagens (environmental factors and chemicals) can cause mutations during DNA replication-UV light, cigarette smoke, X rays - Mutations that cause cancer are called carcinogens Inherited characteristics • Gregor Mendel in the 19th Century paved the way for the understanding of how certain conditions and genes are passed on to the next generation • Inheritance- transmission of genetic information from generation to generation (inherited or hereditary characteristics) • We have homologous pairs of chromosomes (one from our mother and one from our father) • For every gene on one chromosome there is a corresponding gene on the other.ie. For hair colour or eye colour • These different forms of the same gene are called alleles • These alleles can be dominant or recessive • Dominant -only needs to occur on one allele for the trait to be expressed eg. Brown hair (B) • Recessive -needs to occur on both alleles to be expressed. eg. Blonde hair (b) http://www.bbc.co.uk/education/guides/zvb7hyc/activity • Homozygous-an individual has two identical alleles. Eg. BB (B for brown hair) or bb (for blonde hair) • Heterozygous-an individual has one of each type of allele. Eg. Bb • Will the above person have brown or blonde hair? Sex-linked diseases • X and Y chromosomes carry different genes • Genes carried on either the X or Y chromosome are ‘ sex-linked’ • If a recessive gene is carried on either the X or Y chromosome of males it will be expressed in the phenotype (the appearance of the organism) • Why? • Because the gene is the only allele present • Females have two X’s (XX) so they have two alleles of the same gene so the gene can be recessive or the female can be a ‘ carrier’ of the X-linked recessive disease
