5.1 - Molecular Maps - Sequenced Genomes PDF

Summary

This document provides notes on genetics, focusing on the concepts of linked genes and recombination. The author, Faizan Saleem, outlines different types of genetic linkage, and discusses how recombination frequency relates to the distance between genes on a chromosome.

Full Transcript

MOLBIOL/BIOL 2C03 –
Genetics
Week 5
Faizan Saleem

1
Alleles of linked genes to not assort independently
Genes on the same chromosome are called syntenic
genes
Alleles of syntenic genes can be reshuffled when
crossing over occurs to produce recombinant
chromosomes
Parental chromosomes or non-recombinant
chromosomes that do not go under crossing over and
carry same alleles as they were transmitted from
parents.
Syntenic genes that are so close together that their
alleles cannot sort independently are called linked genes
Genetic linkage mapping plots the positions of genes
and their relative distances from each other on
chromosomes
Not all syntenic genes are linked 2
Patterns of Recombination in Response to Distance
Between the Genes
1. Syntenic genes located near each other on a
chromosome tend to recombine less often during
crossing over, while the farther apart recombine more
often.
2. However, syntenic genes located far a part from each
other or on different chromosomes assort
independently. -

syntenic not linked

3
Observations We will Discuss in this Lecture

1. Linked genes are always syntenic.
2. When syntenic genes are so far apart that crossing over
generates independent assortment, they are not linked.
3. Genetic Linkage = More parental gametes and less
recombinant gametes.
4. Crossing over is less likely to occur between linked genes.
5. The frequency of crossing over is roughly proportionate to the
distance between the genes.

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 Review: Unlinked genes assort independently

Alleles from each
Parent 1 Parent 2 Offspring gene move
gametes independently to
gametes
-
located on
differ chromosomes.

-

don't show genetic linkage

Offspring Independent assortment
predicts each type of
gamete will have a
frequency of 25%
(1:1:1:1)

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 But linked genes do not assort independently

Parent 1 Parent 2 Offspring
gametes
are
alleles some
ondiffer
>
-

Gametes with parental
Offspring linkage are more frequent
than gametes with
recombined linkage

6
 But linked genes do not assort independently

Parent 1 Parent 2 Offspring
gametes

Offspring

In this cross, the D allele is linked to the e allele in one
parent, and the d allele is linked to the E allele in the 7
other parent
 But linked genes do not assort
independently
Parent 1 Parent 2 Offspring
DE de
gametes
DE de
DDEE (DE/DE) ddee (de/de)
DE
DE
DE de de
de
De
De
dE
dE
DE
Offspring
de

A characteristic of genetic linkage is that the recombination between
linked genes is low (Parental alleles stay together), leading to more
parental gametes. 8
Types of Genetic Linkage

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Complete Genetic Linkage

1. Complete Genetic Linkage:
No recombination or only
parental allele combinations
in gametes.
2. For example, in cases
where a dihybrid cross
produces two equally
frequent parental allele
combinations but no
recombinants.
-

don't want to sort without relying
on the other
10
Incomplete Genetic Linkage

1. Incomplete Genetic Linkage:
Mixture of parental and non-
parental (recombinant)
gametes.
2. Frequency of parental
gametes is >50%
% and for recombinant