Animal behaviour includes all the ways animals interact with other organisms and the physical environment. It is defined as a change in the activity of an organism in response to a stimulus.
Epistasis is a phenomenon in genetics in which the effect of a gene mutation is dependent on the presence or absence of mutations in one or more other genes, respectively termed modifier genes. In other words, the effect of the mutation is dependent on the genetic background in which it appears.
An example of epistasis is the interaction between hair colour and baldness. A gene for total baldness would be epistatic to one for blond hair or red hair. The hair-colour genes are hypostatic to the baldness gene. The baldness phenotype supersedes genes for hair colour, and so the effects are non-additive.
Various types of epistatic gene interaction are 1) Recessive epitasis (9:3:4) 2) Dominant epistasis (12:3:1) 3) Dominant and recessive (inhibitory) epistasis (13:3) 4) Duplicate recessive epistasis (9:7) 5) Duplicate dominant epistasis (15:1) and 6) Polymeric gene interaction (9:6:1).
Animal behaviour includes all the ways animals interact with other organisms and the physical environment. It is defined as a change in the activity of an organism in response to a stimulus.
Epistasis is a phenomenon in genetics in which the effect of a gene mutation is dependent on the presence or absence of mutations in one or more other genes, respectively termed modifier genes. In other words, the effect of the mutation is dependent on the genetic background in which it appears.
An example of epistasis is the interaction between hair colour and baldness. A gene for total baldness would be epistatic to one for blond hair or red hair. The hair-colour genes are hypostatic to the baldness gene. The baldness phenotype supersedes genes for hair colour, and so the effects are non-additive.
Various types of epistatic gene interaction are 1) Recessive epitasis (9:3:4) 2) Dominant epistasis (12:3:1) 3) Dominant and recessive (inhibitory) epistasis (13:3) 4) Duplicate recessive epistasis (9:7) 5) Duplicate dominant epistasis (15:1) and 6) Polymeric gene interaction (9:6:1).
Trends in evolution :- synopsis :- 1. INTRODUCTION
( DEFINITION OF EVOLUTION)
2.TRENDS IN EVOLUTION
3. DEFINITION OF MOLECULAR EVOLUTION
4.GENE EVOLUTION
*Mutation
*Horizontal gene transfer
*Sexual reproduction
5.EVOLUTION OF GENE FAMILIES
(Kind of gene families)
For more you can refer to www.faunafondness.com
Trends in evolution :- synopsis :- 1. INTRODUCTION
( DEFINITION OF EVOLUTION)
2.TRENDS IN EVOLUTION
3. DEFINITION OF MOLECULAR EVOLUTION
4.GENE EVOLUTION
*Mutation
*Horizontal gene transfer
*Sexual reproduction
5.EVOLUTION OF GENE FAMILIES
(Kind of gene families)
For more you can refer to www.faunafondness.com