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Transcript
THOMAS MORGAN Morgan’s DISCOVERY of LINKED GENES • Characteristics of linked genes 1. WHEN GENES ARE CLOSE TOGETHER ON A CHROMOSOME THEY TEND TO BE INHERITED TOGETHER 2. LINKED GENES tend to not SEPARATE from one another during Crossing Over Prophase I During Cross Over in Prophase, they tend to stay together instead of separating and switching How Morgan Discovered Linked Genes • USED DROSOPHILA Genus name – common name Fruit flies WHY? • • • • They Mature in 2 weeks They Produce large numbers of offspring They only have 4 pair of chromosomes One pair are the Sex CHROMOSOMES The Experiment for Linked Genes Part I • crossed PURE BRED fruit flies for two traits • Homozygous Dominant GRAY BODIES & NORMAL WING SIZE (GGWW) with Homozygous Recessive flies that had BLACK BODIES & SMALL WINGS (ggww) • GG WW X gg ww • WHAT Genotype did he expect based on Mendelian genetics? • GgWw • WHICH IS WHAT HAPPENED • Okay Big deal! • What do you think he did next? Think about Mendel’s experiments MORGAN’S Experiment Part II • He then crossed an F-1 of the GgWw hybrid offspring w/a recessive ggww • What would you expect? • Fill out this punnett- • he did not get as expected… • ¼ GRAY NORMAL • ¼ GRAY SHORT • ¼ BLACK NORMAL • ¼ BLACK SHORT • INSTEAD, he got… GgWw x ggww GW gw gw gw gw gw Gw gW Experiment’s Results for Part II Gg Ww alleles Expected Actual Results 2300 total offspring gg ww alleles MORGAN’S RESULTS • • • • • • 41.5% GRAY body/Normal wings 41.5% BLACK body/small wings 8.5% GRAY body/Small wings 8.5% BLACK body/Normal wings MORGAN’s Conclusion The genes for wing size and body color were so commonly inherited as only two combinations either gray body/normal wing or black body/small wing that they had to be … • on the same chromosome! • This indicated that the genes for body color and wing size were… • LINKED onto one chromosome. Crossing Over Explains the other 8.5% combinations of either Black Body/Normal Wing or Gray body/Small Wing Homologous chromosomes Chromosome combinations for gametes This means that even though genes can be linked, They can sometimes separate from one another during Crossing Over in Meiosis GENE MAP • If you know the frequency of how often genes cross over, you can use the percentage to estimate how far apart the genes are from on another on a chromosome • This is called a Gene Map • So if two genes have an 8% frequency of crossing then are they far apart or close on a chromosome? B c A Try this! Map this chromosome’s genes using these crossing over frequencies • AE cross over 5% • BA cross over 10% • BE cross over 20% • DE cross over 50% • DB cross over 25% • CB cross over 5% • CA cross over 20% How did you do? D C B A E http://www2.edc.org/weblabs/crossingOver/intro.htm Gene Mapping Tutorial GENES ON SEX CHROMOSOMES http://www.mhhe.com/biosci/esp/2001_gbio/folder_structur e/ge/m3/s2/index.htm • A gene located on a A SEX CHROMOSOME is called a SEX-LINKED GENE • MORGAN DISCOVERED the 1ST SEX-LINKED gene in fruit flies • He crossed a PUREBRED Dominant REDEYED FEMALE W+W+ with a PUREBRED recessive WHITE-EYED WW MALE • Let’s take a look at the 1st cross. Morgan’s 1st Sex Linked Cross All offspring had red eyes MORGAN’S 2nd CROSS • HE crossed from the F-1 generation a heterozygous FEMALE, W+W RED-EYED with a RED-EYED W+ MALE (note only 1 allele! • Let’s do the cross • HE got a 3:1 RATIO of Red eye to White eye, but only MALES had WHITE EYES! Why? • Since no FEMALES had WHITE EYES Morgan hypothesized that EYE COLOR must be a SEX-LINKED gene • IT must be on the X CHROMOSOME The Y chromosome does not carry a gene for EYE COLOR • The RECESSIVE TRAIT White eyes, is inherited more often in males that receive the r allele on their one and only X CHROMOSOME MORGAN’S EXPERIMENTAL CROSS Red eyed female All females had red eyes 3:1 ratio red eyes to white eyes White eyed male All males had red eyes Only males had white eyes Chromosomal mutations http://en.wikipedia.org/wiki/Chromosomal_translocation http://www.nature.com/scitable/topicpage/dna-deletion-and-duplication-and-theassociated-331 DUPLICATION, INVERSION, DELETION, TRANSLOCATION Mutations http://learn.genetics.utah.edu/content/begin/traits/predictdisorder/ • • • • • • • • Point mutation-single nitrogen base is misplaced Missense mutation –single point mutation A substitution may be okay May not be fatal, since there is redundancy in the amino acid codons Nonsense mutation, a single codon codes for a stop codon Deletion/insertion of a point mutation can cause a frame shift Can code for the incorrect amino acid Could create an incorrect protein Nondisjunction http://www.mhhe.com/biosci/esp/2001_gbio/folder_structure/ge/m3/s3/i ndex.htm • Failure to separate chromosomes evenly during meiosis • Chromosomal mutations involving whole or complete pairs of chromosomes • 3n-triploidy • 4n-tetraploidy • Having more then one set of chromosomes-polyploidy • Fatal in humans, beneficial in plants SRY gene Sex determining Region of the Y chromosome • The gene can trigger biochemical, physiological & anatomical features because it regulates other genes • If it is missing embryonic gonads develop into ovaries Sex linked genes • Males have only 1 X gene Hemizygous also XY heterogametic • Females XX homogametic • If a male inherits a recessive allele from his mom he will express the trait • Chance of a female inheriting a double dose is much less • It is rare for X & Y to cross over Sex linked disorders • Duchenne muscular dystrophy- absence of an X linked gene for a muscle proteindystrophin. Weak muscles, loss of coordination • Hemophilia- blood clotting disorder, absence of a clotting factor. Barr body, X chromosomes in females • In females during development one X chromosome condenses into a Barr body. Most of its genes are inactive • Females therefore are a mosaic of paternal X and maternal X as to which genes are activated • In an X linked mutation for sweat glands, half her glands produce sweat, the others do not X chromosomes • Methyl groups attach to the inactive X chromosome • One of the two X has an active XIST gene • It produces multiple copies of rna that covers the X chromosome. This initiates X inactivation Tortoise haired cats • Female cats have patches of orange and black fur due to cells expressing an orange allele and others express no orange allele •
