Presentation is loading. Please wait.

Presentation is loading. Please wait.

Heredity Review. Heredity – Mitosis/Cell Division Cell Cycle Mitosis..structure of chromosome Regulation –Density Dependent –Density Independent –G o,

Published byNorman Todd Modified over 9 years ago

Similar presentations

Presentation on theme: "Heredity Review. Heredity – Mitosis/Cell Division Cell Cycle Mitosis..structure of chromosome Regulation –Density Dependent –Density Independent –G o,"— Presentation transcript:

1 Heredity Review

2 Heredity – Mitosis/Cell Division Cell Cycle Mitosis..structure of chromosome Regulation –Density Dependent –Density Independent –G o, –Kinase –Cyclin –Cyclin Dependent kinase Plants vs. Animals

3 Heredity – Meiosis Synapsis  Homologous Chromosomes Crossing Over, Chiasmata Meiosis I vs Meiosis II Males vs. Females Genetic Variation –Independent assortment –Crossing over –Random mating (of gametes)

4 Heredity – Mendelian (the monk and assistant) Dominant Recessive Co-dominant Incomplete Dominance

5 Heredity – Morgan (the fly guy) Gene Linkage Chromosome Map Sex Linkage Barr Bodies Epigenetics

6 Heredity – Probability P, F1, F2 Generations Rule of Multiplication – be able to calculate Test Cross Non conventional inheritance patterns (actually, the norm!) –Incomplete vs. codominance (are you pink or striped?) –Multiple alleles (blood type) –Epistasis (one gene alters another; skin color) –Pleiotrophy (one gene – many traits; sickle cell anemia) –Polygenic Inheritance (body height) –Linked Genes (sex linked examples) –Epigenetics (environment vs. genome) –Genomic Imprinting (mom or dad?) –Nondisjunction (oops) Chi Squared

7 Book Problems See p 283-284 tips and problems See page 303-304 problems

8 Heredity – Molecular Basis DNA – Structure –Nucleotide Nitrogen Base (pairing, identity) Phosphate (charge) (Deoxy) Ribose (five carbon sugar) –Purines, Pyrimidines Explanation of pairing rules 3’, 5’??????????????? –Euchromatin vs. heterochromatin Satellite DNA

9

10 Heredity – Molecular Basis Replication –Primase –topoisomerase –Polymerase –Helicase –Ligase –Single stranded binding proteins –Primer –Leading/lagging strand –Proof-reading Okazaki

11 Heredity – Molecular Basis DNA vs. RNA –Chemical differences –Functional differences

12 Heredity – Molecular Basis Transcription –mRNA, Transcription factors, RNA polymerase –TATA box –Post transcriptional processing 5’ cap Poly A tail Introns Exons –Prokaryotic vs. Eukaryotic

13 Heredity – Molecular Basis Translation –mRNA, rRNA, tRNA Codon  mRNA Anticodon  tRNA  amino acid Reading genetic code Prokaryotic vs. Eukaryotic

14 Heredity – Molecular Basis Regulation of Gene Expression –Transcription factors –mRNA processing –Eukaryotes  steroid hormones Euchromatin vs. heterochromatin Review structure of chromosome (ch 19) –Prokaryotes  operon Lac operon vs. trp operon –Promoter, operator, structural genes

15

16 Inducible (lac) Repressible (typ) Transcription of the gene: regulation in prokaryotes

17 Transcription of the gene: regulation in eukaryotes

18 What can go wrong?? –Point mutation Non-sense mutation – premature stop codon Mis-sense mutation – wrong amino acid (sickle cell) –addtion/deletion/substitution –Frame shift mutation –Thymine dimers – UV radiation Heredity – Molecular Basis

19 The product of the p53 gene (p53 protein) inhibits the cell cycle and allows time for DNA repair mechanisms to operate. Deficiencies in this cell cycle inhibiting pathway could promote cancer Heredity – Oncogenes – p53, RAS

20 Some proteins encoded by proto-oncogenes and tumor-suppressor genes are components of cell signaling pathways The Ras proto- oncogene (G protein) is part of a cell cycle stimulating pathway. A mutation making this pathway abnormally active could result in cancer

21 Heredity – Biotechnology –Viral modes of survival –Biotechnology Cloning –Transformation »Plasmid »Antibiotic Resistance –PCR Gene splicing –Restriction digests »Restriction Enzyme –Electrophoresis Gene Silencing –Knockout genes –iRNA Stem Cells vs. Cancer Cells!!

Download ppt "Heredity Review. Heredity – Mitosis/Cell Division Cell Cycle Mitosis..structure of chromosome Regulation –Density Dependent –Density Independent –G o,"

Similar presentations

AP Biology Exam Review 2003-2004 Heredity and Evolution – 25%

AP Biology Exam Review Heredity and Evolution – 25%
Biology Ch. 12 Review.

Biology Ch. 12 Review.
Mendel, Mendel extended, DNA/RNA and biotechnology Coopercityhigh.net/webpages/lcoyne.

Mendel, Mendel extended, DNA/RNA and biotechnology Coopercityhigh.net/webpages/lcoyne.
DNA Structure and Technology By: Amber Tharpe. DNA Structure Monomers are nucleotides Monomers are nucleotides 3 parts of a nucleotide 3 parts of a nucleotide.

DNA Structure and Technology By: Amber Tharpe. DNA Structure Monomers are nucleotides Monomers are nucleotides 3 parts of a nucleotide 3 parts of a nucleotide.
Genetics Unit –Cell Reproduction Asexual reproduction – Binary fission – Mitosis Sexual reproduction – Meiosis Meiosis I, meiosis II gametes.

Genetics Unit –Cell Reproduction Asexual reproduction – Binary fission – Mitosis Sexual reproduction – Meiosis Meiosis I, meiosis II gametes.
Mutations in DNA Gene Expression Protein Synthesis DNA Patterns of Inheritance 50 40 30 20 10 20 30 40 50 10 20 30 40 50 10 20 30 40 50 10 20 30 40 50.

Mutations in DNA Gene Expression Protein Synthesis DNA Patterns of Inheritance
C-26 Genetics Packet. What are most homologous chromosomal pairs called? Homozygous or Pure.

C-26 Genetics Packet. What are most homologous chromosomal pairs called? Homozygous or Pure.
Gene Regulation Chapter 15. Gene Regulation 2Outline Prokaryotic Regulation  trp Operon  lac Operon Eukaryotic Regulation  Transcriptional Control.

Gene Regulation Chapter 15. Gene Regulation 2Outline Prokaryotic Regulation  trp Operon  lac Operon Eukaryotic Regulation  Transcriptional Control.
12/29/102 Functional segments of DNA Code for specific proteins Determined by amino acid sequence One gene-one protein hypothesis (not always true)

12/29/102 Functional segments of DNA Code for specific proteins Determined by amino acid sequence One gene-one protein hypothesis (not always true)
© 2006 W.W. Norton & Company, Inc. DISCOVER BIOLOGY 3/e

© 2006 W.W. Norton & Company, Inc. DISCOVER BIOLOGY 3/e
Molecular Genetics Ch. 16, 17, 18, 19, 20. DNA Replication Happens during interphase of mitosis. Semiconservative Replication 3 basic steps  Unwind and.

Molecular Genetics Ch. 16, 17, 18, 19, 20. DNA Replication Happens during interphase of mitosis. Semiconservative Replication 3 basic steps  Unwind and.
Genetics Vicky “Bio-lover” Atzl Farah “Bird-hater” Momen.

Genetics Vicky “Bio-lover” Atzl Farah “Bird-hater” Momen.
Decoding DNA : Transcription, Translation and Gene Regulation.

Decoding DNA : Transcription, Translation and Gene Regulation.
How Proteins are Made. I. Decoding the Information in DNA A. Gene – sequence of DNA nucleotides within section of a chromosome that contain instructions.

How Proteins are Made. I. Decoding the Information in DNA A. Gene – sequence of DNA nucleotides within section of a chromosome that contain instructions.
Unit 4 Vocabulary Review. Nucleic Acids Organic molecules that serve as the blueprint for proteins and, through the action of proteins, for all cellular.

Unit 4 Vocabulary Review. Nucleic Acids Organic molecules that serve as the blueprint for proteins and, through the action of proteins, for all cellular.
Introns and Exons DNA is interrupted by short sequences that are not in the final mRNA Called introns Exons = RNA kept in the final sequence.

Introns and Exons DNA is interrupted by short sequences that are not in the final mRNA Called introns Exons = RNA kept in the final sequence.
SB2a How are DNA and RNA different? DNA is double stranded and RNA is single stranded. RNA has Uracil and DNA has thymine. DNA is only in the nucleus.

SB2a How are DNA and RNA different? DNA is double stranded and RNA is single stranded. RNA has Uracil and DNA has thymine. DNA is only in the nucleus.
Gene Regulation 1 CHAPTER 15 REGULATION OF GENE ACTIVITY.

Gene Regulation 1 CHAPTER 15 REGULATION OF GENE ACTIVITY.
Genetics Ms Mahoney MCAS Biology. Central Concepts: Genes allow for the storage and transmission of genetic information. They are a set of instructions.

Genetics Ms Mahoney MCAS Biology. Central Concepts: Genes allow for the storage and transmission of genetic information. They are a set of instructions.
RNA AND PROTEIN SYNTHESIS RNA vs DNA RNADNA 1. 5 – Carbon sugar (ribose) 5 – Carbon sugar (deoxyribose) 2. Phosphate group Phosphate group 3. Nitrogenous.

RNA AND PROTEIN SYNTHESIS RNA vs DNA RNADNA 1. 5 – Carbon sugar (ribose) 5 – Carbon sugar (deoxyribose) 2. Phosphate group Phosphate group 3. Nitrogenous.

Similar presentations

Ads by Google