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THE CHROMOSOMAL BASIS OF INHERITANCE

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Presentation on theme: "THE CHROMOSOMAL BASIS OF INHERITANCE"— Presentation transcript:

1 THE CHROMOSOMAL BASIS OF INHERITANCE
CHAPTER 15 THE CHROMOSOMAL BASIS OF INHERITANCE

2 I. RELATING MENDELISM TO CHROMOSOMES
A.     MENDELIAN INHERITANCE HAS ITS PHYSICAL BASIS IN THE BEHAVIOR OF CHROMOSOMES DURING SEXUAL LIFE CYCLES IN THE EARLY 1900S, GENETICISTS SHOWED THAT CHROMOSOMAL MOVEMENTS IN MEIOSIS ACCOUNT FOR MENDEL'S LAWS.

3 15.1 CHROMOSOMAL BASIS OF MENDEL’S LAWS

4 EACH CHROMOSOME HAS HUNDREDS OR THOUSANDS OF GENES.
B.     LINKED GENES TEND TO BE INHERITED TOGETHER BECAUSE THEY ARE LOCATED ON THE SAME CHROMOSOME EACH CHROMOSOME HAS HUNDREDS OR THOUSANDS OF GENES. LINKED GENES DO NOT ASSORT INDEPENDENTLY

5 15.3 SEX LINKED INHERITANCE

6 D.   INDEPENDENT ASSORTMENT OF CHROMOSOMES AND CROSSING OVER PRODUCE GENETIC RECOMBINANTS
RECOMBINANT OFFSPRING, WHICH EXHIBIT NEW COMBINATIONS OF TRAITS INHERITED FROM TWO PARENTS, RESULT FROM EVENTS OF MEIOSIS AND RANDOM FERTILIZATION. THESE EVENTS INCLUDE CROSSING OVER AND INDEPENDENT ASSORTMENT OF CHROMOSOMES DURING THE FIRST MEIOTIC DIVISION. A RECOMBINATION FREQUENCY UNDER 50% INDICATES THAT THE GENES ARE LINKED BUT THAT CROSSING OVER HAS OCCURRED. IN THIS PROCESS, HOMOLOGOUS CHROMOSOMES IN SYNAPSIS DURING PROPHASE OF MEIOSIS I BREAK AT CORRESPONDING POINTS AND SWITCH FRAGMENTS, CREATING NEW COMBINATIONS OF ALLELES THAT ARE THEN PASSED ON TO THE GAMETES.

7 15.4 EVIDENCE FOR LINKED GENES IN DROSOPHILA

8 E. GENETICISTS CAN USE RECOMBINATION DATA TO MAP A CHROMOSOME’S GENETIC LOCI
ONE WAY TO MAP GENES IS TO DEDUCE THEIR ORDER AND A ROUGH INDICATION OF THE RELATIVE DISTANCES BETWEEN THEM FROM CROSSOVER DATA. THE FARTHER APART GENES ARE ON A CHROMOSOME, THE MORE LIKELY THEY ARE TO BE SEPARATED DURING CROSSING OVER. CYTOLOGICAL MAPPING IS A TECHNIQUE THAT PINPOINTS THE PHYSICAL LOCUS OF A GENE BY ASSOCIATING A MUTANT PHENOTYPE WITH A CHROMOSOMAL DEFECT SEEN IN THE MICROSCOPE.

9 15.6 USING RECOMBINATION FREQUENCIES TO CONSTRUCT A GENETIC MAP

10 15.7 A PARTIAL GENETIC MAP OF A DROSOPHILA CHROMOSOME

11 II. SEX CHROMOSOMES THE CHROMOSOMAL BASIS OF SEX VARIES WITH THE ORGANISM SEX IS AN INHERITED PHENOTYPIC CHARACTER USUALLY DETERMINED BY THE PRESENCE OR ABSENCE OF SPECIAL CHROMOSOMES; THE EXACT MECHANISM VARIES AMONG DIFFERENT SPECIES. HUMANS AND OTHER MAMMALS, LIKE FRUIT FLIES, HAVE AN X- Y SYSTEM. AN XY MALE GIVES EITHER AN X CHROMOSOME OR A Y CHROMOSOME TO THE SPERM, WHICH COMBINES WITH AN OVUM CONTAINING AN X CHROMOSOME FROM AN XX FEMALE. THE OFFSPRING'S SEX IS DETERMINED AT CONCEPTION BY WHETHER THE SPERM CARRIES X OR Y

12 15.8 SOME CHROMOSOMAL SYSTEMS OF SEX DETERMINATION

13 B. SEX-LINKED GENES HAVE UNIQUE PATTERNS OF INHERITANCE
THE SEX CHROMOSOMES CARRY CERTAIN GENES TRAITS THAT ARE UNRELATED TO MALENESS OR FEMALENESS. IN MAMMALIAN FEMALES, ONE OF THE TWO X CHROMOSOMES IN EACH IS RANDOMLY INACTIVATED DURING EARLY EMBRYONIC DEVELOPMENT

14 15.9 THE TRANSMISSION OF SEX LINKED RECESSIVE TRAITS

15 III. ERRORS AND EXCEPTIONS TO CHROMOSOMAL INHERITANCE
ALTERATIONS OF CHROMOSOME NUMBER OR STRUCTURE CAUSE SOME GENETIC DISORDERS ERRORS ( MEIOSIS CAN CHANGE THE NUMBER OF CHROMOSOMES PER CELL OR THE STRUCTURE OF INDIVIDUAL CHROMOSOMES. SUCH ALTERATIONS CAN AFFECT PHENOTYPE. ANEUPLOIDY, AN ABNORMAL CHROMOSOME NUMBER, ARISE WHEN A NORMAL GAMETE UNITES WITH ONE CONTAINING TWO OR NO COPIES OF A PARTICULAR CHROMOSOME AS A RESULT OF NONDISJUNCTION DURING MEIOSIS. POLYPLOIDY, IN WHICH THERE ARE MORE THA COMPLETE SETS OF CHROMOSOMES, CAN RESULT FROM COMPLETE NONDISJUNCTION DURING GAMETE FORMATION.

16 A VARIETY OF REARRANGEMENT CAN RESULT FROM CHROMOSOME BREAKAGE.
A LOST FRAGMENT LEAVE CHROMOSOME WITH A DELETION AND MAY PRODUCE A DUPLICATION TRANSLOCATION, OR INVERSION BY REATTACHING TO ANOTHER CHROMOSOME. SUCH ALTERATIONS CAUSE A VARIETY OF HUMAN DISORDERS, SUCH AS DOWN SYNDROME, USUALLY DUE TO TRISOMY OF CHROMOSOME 21

17 15.11 MEIOTIC NONDISJUNCTION

18 15.12 ALTERATIONS OF CHROMOSOME STRUCTURE

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