4.1 Linkage: basic haploid eukaryotic chromosome mapping

4.1 Linkage: basic haploid eukaryotic chromosome mapping

4.1 Linkage: basic haploid eukaryotic chromosome mapping

Haploids organisms

• Advantages for genetics studies:

– There is no dominance or recessivity

– Only one meiosis in each cross

– In some fungus and algae, the individual meiosis products stay attached in tetrads

– Most of them are microbes

The linear meiosis of Neurospora

Allele segregation in ordered tetrads in MI

•The allele segregation takes place during the first meiotic division (MI)

A second-division segregation pattern in a fungal octad

When a crossover between the

centromere and the locus takes

place, segregation occurs in the

second meiotic division (MII)

Four different spindle attachments produce four second-division

segregation patterns

Distance locus-centromere

• Crossover frequency between the locus and the centromere

In this ascus, only half of the chromatids have undergone a crossover

Distance locus- centromere =

1

2 MII Asci

Total100 (map units )

Two loci: a y b

– They are in different arms in the same chromosome

– They are in the same arm• One crossover between the

centromere and a produces the same MII pattern for the two loci: LINKED LOCI

Located in the same chromosome

Two loci

• Crossing a+ b X a b+. ORDERED ASCI

a+ ba+ ba b+

a b+

808

a+ b+

a+ b+

a ba b1

a+ b+

a+ ba b+

a b90

a+ ba b+

a+ ba b+

90

a+ ba b

a+ b+

a b+

5

a+ b+

a b

a+ b+

a b

1

a+ b+

a b

a+ ba b+

5

a - cen =

1

2MII Asci

Total100 =

1

2(5 9015)

1000100 5.05 m.u.

MI MI MI MII MII MII MII MIIMIIMIIMII MIMIMI

b - cen =

1

2(90 90 15)

1000100 9.3 m.u.

• Three possibilities

– Independent Loci : no linkage. Independent segregation. – Most (96) of the a MII asci are also b MII : the third possibility is the correct one. How have the a MII and b MI occurred?a b

a b

a b

a+ ba+ ba b+

a b+

808

a+ b+

a+ b+

a ba b1

a+ b+

a+ ba b+

a b90

a+ ba b+

a+ ba b+

90

a+ ba b

a+ b+

a b+

5

a+ b+

a b

a+ b+

a b

1

a+ b+

a b

a+ ba b+

5

MI MI MI MII MII MII MII MIIMIIMIIMII MIMIMI

Unordered asci

• Saccharomyces cerevisiae • Unable to locate the centromere• a+ b+ X a b cross. Three possible asci types

a+ b+

a+ b+

a ba b

a+ b+

a+ ba b+

a b

a+ ba+ ba b+

a b+

Parentalditypes

no parental ditypes

(recombinante)

Tetratypes

The written order does not mean the ascus order.

Maps with unordered asci

Rec. frequency. =

1

2TT DNP

TOTAL

What happens when there is no linkage?

Two loci in ordered asci

• Cross a+ b X a b+. ORDERED ASCI

a+ ba+ ba b+

a b+

808

a+ b+

a+ b+

a ba b1

a+ b+

a+ ba b+

a b90

a+ ba b+

a+ ba b+

90

a+ ba b

a+ b+

a b+

5

a+ b+

a b

a+ b+

a b

1

a+ b+

a b

a+ ba b+

5

DP DNP DP DNPTT TT TT

RF

1

2TT DNP

Total

1

2(90 5 5) (11)

1000X100 5.2 m.u.

a b5.05 5.2

10.25/9.3