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Syllabus Dates

Syllabus Dates. Vocabulary Heredity HW Cancer Writing Optional review session Test. Beyond Mendel. Important vocabulary to remember…. Genotype Gg GG gg Phenotype Blue, ruffled, tall HOMOZYGOUS H E T E R O Z Y G O U S. segregation. Alleles separate when gametes are formed.

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Syllabus Dates

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  1. Syllabus Dates • Vocabulary • Heredity HW • Cancer Writing • Optional review session • Test

  2. Beyond Mendel

  3. Important vocabulary to remember… • Genotype • GgGGgg • Phenotype • Blue, ruffled, tall • HOMOZYGOUS • HETEROZYGOUS

  4. segregation • Alleles separate when gametes are formed

  5. Independent assortment • One trait does not guarantee inheritance of another

  6. Two or more genes are LINKED if: a) they are on same chromosome b) they are close enough to stay together through almost all crossing over

  7. Besides simple dominance… • Incomplete dominance • Codominance • Sex linked • Pleiotropy • Epistasis • Environmental factors

  8. Spectrum of dominance Incomplete dominance • Functional, dominant allele is not able to fully replace lost protein from recessive allele • A visual blend of the available phenotypes • examples?

  9. 2 parents heterozygous genotypes

  10. Spectrum of Dominance • Codominance • Where both alleles function independently

  11. clotting clotting clotting clotting clotting clotting clotting

  12. 1. Blood group of mother: AB Blood Group of Child: A Man exonerated if he belongs to blood groups ______________

  13. 2. Blood group of mother: B Blood Group of Child: A Man exonerated if he belongs to blood groups ______________

  14. Sex Linked Traits = If a gene exists ONLY on the X chromosome, it is considered a SEX LINKED TRAIT

  15. Example: hemophilia H= non-hemo. h=hemo. Mom = heterozygous Dad = recessive Mom = XHXh Dad = XhY

  16. Practice: sex linked trait 3) H = healthy h = hemophiliac Mom = Heterozygous (hemophilia carrier) Dad = healthy a. What are phenotype ratios for cross? b. What percentage of females are carriers for hemophilia?

  17. 4) sex linked trait B= normal color vision b= color blindness Mom = carrier for color blindness Dad = color blind a. What % of offspring are colorblind? B. What % of offspring are carriers? C. In any sex linked situation, what % of MALES will be carriers for a recessive gene?

  18. Pleiotropy • Most genes are pleiotropic • one gene affects more than one phenotypic character • wide-ranging effects due to a single gene • dwarfism (achondroplasia) • gigantism (acromegaly)

  19. Acromegaly: André the Giant

  20. Epistasis • One gene controls another gene • coat color in mice = 2 separate genes • C,c: pigment (C) or no pigment (c) • B,b: more pigment (black=B) or less (brown=b) • cc = albino, no matter B allele • 9:3:3:1 becomes 9:3:4

  21. Epistasis in Labrador retrievers • 2 genes: (E,e) & (B,b) • pigment (E) or no pigment (e) • pigment concentration: black (B) to brown(b) eebb eeB– E–bb E–B–

  22. Sex-linked traits summary • X-linked • follow the X chromosomes • males get their X from their mother • trait is never passed from father to son • Y-linked • very few genes / traits • trait is only passed from father to son • females cannot inherit trait

  23. Ichthyosis, X-linked Placental steroid sulfatase deficiency Kallmann syndrome Chondrodysplasia punctata, X-linked recessive Hypophosphatemia Aicardi syndrome Hypomagnesemia, X-linked Ocular albinism Retinoschisis Duchenne muscular dystrophy Becker muscular dystrophy Chronic granulomatous disease Retinitis pigmentosa-3 Adrenal hypoplasia Glycerol kinase deficiency Norrie disease Retinitis pigmentosa-2 Ornithine transcarbamylase deficiency Incontinentia pigmenti Wiskott-Aldrich syndrome Menkes syndrome Androgen insensitivity Sideroblastic anemia Aarskog-Scott syndrome PGK deficiency hemolytic anemia Charcot-Marie-Tooth neuropathy Choroideremia Cleft palate, X-linked Spastic paraplegia, X-linked, uncomplicated Deafness with stapes fixation Anhidrotic ectodermal dysplasia Agammaglobulinemia Kennedy disease PRPS-related gout Lowe syndrome Pelizaeus-Merzbacher disease Alport syndrome Fabry disease Lesch-Nyhan syndrome HPRT-related gout Immunodeficiency, X-linked, with hyper IgM Lymphoproliferative syndrome Hunter syndrome Hemophilia B Hemophilia A G6PD deficiency: favism Drug-sensitive anemia Chronic hemolytic anemia Manic-depressive illness, X-linked Colorblindness, (several forms) Dyskeratosis congenita TKCR syndrome Adrenoleukodystrophy Adrenomyeloneuropathy Emery-Dreifuss muscular dystrophy Diabetes insipidus, renal Myotubular myopathy, X-linked Albinism-deafness syndrome Fragile-X syndrome Human X chromosome

  24. linked Map of Human Y chromosome? < 30 genes on Y chromosome Sex-determining Region Y (SRY) Channeling Flipping (FLP) Catching & Throwing (BLZ-1) Self confidence (BLZ-2)note: not linked to ability gene Devotion to sports (BUD-E) Addiction to death &destruction movies (SAW-2) Air guitar (RIF) Scratching (ITCH-E) Spitting (P2E) Inability to express affection over phone (ME-2) Selective hearing loss (HUH) Total lack of recall for dates (OOPS)

  25. XHXh XH Xh X-inactivation • Female mammals inherit 2 X chromosomes • one X becomes inactivated during embryonic development • condenses into compact object = Barr body • which X becomes Barr body is random

  26. X-inactivation & tortoise shell cat • 2 different cell lines in cat

  27. Nature vs. nurture • Phenotype is controlled by both environment & genes Coat color in arctic fox influenced by heat sensitive alleles Color of Hydrangea flowers is influenced by soil pH

  28. Teratogens

  29. cyclopamine

  30. Thalidomide

  31. Accutane (Isotretinion)

  32. Triphalangeal thumb

  33. microcephaly

  34. Fetal alcohol syndrome

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