Gene ineractions jb
-
Upload
jayakara-bhandary -
Category
Education
-
view
6.551 -
download
0
description
Transcript of Gene ineractions jb
![Page 1: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/1.jpg)
Dr. Jayakara Bhandary M.Associate Professor of BotanyGovernment College, Karwar – [email protected]
GENE INTERACTIONS(FOR BOTANY STUDENTS OF B. SC. SEMESTER VI, PAPER 1,
KARNATAKA UNIVERSITY, DHARWAD
![Page 2: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/2.jpg)
INTRODUCTION
� Non-Mendelian patterns of Inheritance –Deviations from Mendelian Ratios (3:1, 9:3:3:1).
� 2 types – Allelic and NonAllelic and NonAllelic and NonAllelic and Non----allelic .allelic .allelic .allelic .Allelic Gene Interactions:Allelic Gene Interactions:Allelic Gene Interactions:Allelic Gene Interactions:Allelic Gene Interactions:Allelic Gene Interactions:Allelic Gene Interactions:Allelic Gene Interactions:
� No complete dominance-recessive relationship between alleles of a gene pair
� Together in Heterozygous condition (Aa), interact and produce new phenotypes –
� Examples: Incomplete Dominance, CoIncomplete Dominance, CoIncomplete Dominance, CoIncomplete Dominance, Co----DominanceDominanceDominanceDominance
![Page 3: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/3.jpg)
NON-ALLELIC GENE INTERACTION
� One Character – influenced by 2 or more pairs of non-allelic gene pairs (Aa, Bb, Cc...).
� Phenotypes decided by interaction between the alleles of these non-allelic genes.alleles of these non-allelic genes.
�Mendelian ratios modified.� Examples: Supplementary interaction, Supplementary interaction, Supplementary interaction, Supplementary interaction, Complementary Interaction, Complementary Interaction, Complementary Interaction, Complementary Interaction, EpistasisEpistasisEpistasisEpistasis, , , , Duplicate genes, Duplicate genes, Duplicate genes, Duplicate genes, etc.
![Page 4: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/4.jpg)
INCOMPLETE DOMINANCE
•������������ ����� ������������•����������������• ��������������������������������������•��� �������������������� ����������• �������!���������������������� ����• �������!���������������������� ������"������#���"����$������%���%��������������
•&���������'�����%���������#�������"������#���������(#)������������������•���������������������#��������#����"������*��������������������������#��������+����,�����
![Page 5: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/5.jpg)
CO-DOMINANCE
� Alleles for human blood groups (ABO)
� IA, IB & IO –3 alleles � IA & IB – in heterozygous condition produce Antigen condition produce Antigen A and Antigen B- AB blood.
� Both are effective completely - Codominantalleles
� (IO is recessive to both IA & IB).
![Page 6: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/6.jpg)
INHERITANCE OF COMB TYPES IN CHICKENS
� Example for non-allelic gene interaction without deviation of Mendelian dihybrid ratio (9:3:3:1).
� Different chicken breeds – different type of combscombs
Rose Pea Single Walnut
![Page 7: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/7.jpg)
GENETICS OF COMB TYPES…
� Gene R - Rose comb, Gene P – Pea comb� R_pp – Rose, rrP_ - Pea comb, rrpp – Single,Hybrid of Rose and Pea produces Walnut –R_P_.R_P_.Cross between Rose and Pea results in F2 population of 9 walnut, 3 Rose, 3 Pea and 1 single (same as Mendel’s dihybrid ratio).Supplementary genes?
![Page 8: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/8.jpg)
![Page 9: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/9.jpg)
SUPPLEMENTARY INTERACTION� One gene independent in action� Second gene dependent on or supplementary in action to first gene. Effective only with first gene.Ex: Coat colour in mice� Ex: Coat colour in mice
� A – Black clour, independent gene� B – Supplementary, Convertsblack into Agouti
![Page 10: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/10.jpg)
A_B_= Agouti, A_bb = Black, aaB_ = White, aabb = White
P- Agouti (BBAA) X White (bbaa)F1 --- Agouti (BbAa)
F2 Phenotypic Ratio F2 Phenotypic Ratio F2 Phenotypic Ratio F2 Phenotypic Ratio ---- 9 Agouti, 4 white and 3 black9 Agouti, 4 white and 3 black9 Agouti, 4 white and 3 black9 Agouti, 4 white and 3 black
![Page 11: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/11.jpg)
COMPLEMENTARY INTERACTION
� 2 non-allelic genes together produce an effect by complementing each others action.
� Each gene, when present alone, no effect� Ex: Flower colour in Sweet Peas� Ex: Flower colour in Sweet Peas� Genes C & P together – Red/Purple flower� Only C or P /no CP = White flower�
![Page 12: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/12.jpg)
White (White (White (White (CCppCCppCCppCCpp) X White () X White () X White () X White (ccPPccPPccPPccPP))))
F2: Purple 9 , White 7F2: Purple 9 , White 7F2: Purple 9 , White 7F2: Purple 9 , White 7
![Page 13: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/13.jpg)
EPISTASIS
� One non-allelic gene masking/suppressing the action of another gene.
� Literally means ‘ sitting uponsitting uponsitting uponsitting upon’. One gene sits upon another gene, prevents its expression.upon another gene, prevents its expression.
� Suppressor gene= EpistaticEpistaticEpistaticEpistatic genegenegenegene, affected/inactivated gene = Hypostatic geneHypostatic geneHypostatic geneHypostatic gene.
� Different types- Dominant/RecessiveDominant/RecessiveDominant/RecessiveDominant/Recessive epistasis, Unidirectional/BidirectionalUnidirectional/BidirectionalUnidirectional/BidirectionalUnidirectional/Bidirectional Epistasis.
![Page 14: Gene ineractions jb](https://reader035.fdocuments.in/reader035/viewer/2022062419/557c8eb0d8b42a8a208b52a8/html5/thumbnails/14.jpg)
EXAMPLE FOR EPISTASIS� Feather Feather Feather Feather colourcolourcolourcolour in chickens:in chickens:in chickens:in chickens:� Gene CCCC codes for colored feathers. Another non-allelic gene AAAA is epistatic to C. In the presence of A, C cannot produce colouredfeathers. Therefore, feathers are white.
� Only when A is absent (aa), C is effective.� C_A_ = White (A epistatic to C), ccA_ = White (no C gene), � C_A_ = White (A epistatic to C), ccA_ = White (no C gene), ccaa= White
� C_aa = Coloured.� A cross between White (CCAA) and white (ccaa) produces all White feathers in F1 (CcAa). In F2, White and coloured are obtained in 13:313:313:313:3 ratio.
� Some also treat Supplementary interaction as Epistasis (Coat colour in animals, 9:4:3 ratio).