Genotypic control of chromosome behaviour in rye X. Chromosome pairing and fertility in autotetraploids

The inheritance of leaf size was studied in crosses involving the large-leafed, L. corniculatus var. vulgaris and the small-leafed, L. corniculatus var. arvensis. Results indicate the genetics of this character to be relatively simple in that it appears to be mainly under the control of alleles at one locus. These alleles show no dominance and there is evidence that the allelic interaction is geometric in nature rather than arithmetic. Backcross ratios of 1:4:1 and 1:2:2:1 were obtained which are indicative of autotetraploid segregation where the chromosomes pair at random. However a factorial hypothesis established wholly on this simple basis does not satisfactorily explain the results. Gene interactions, which at present are unknown, are thought to be involved.Cytological examination of the parent plants showed chromosome pairing to be chiefly as bivalents. Quadrivalent formation was rare. If this species is of autoploid origin as the backcross ratios indicate the process of reversion to the diploid type of chromosome behaviour is fairly complete, and therefore disomic, tetrasomic and disomic-tetrasomic ratios can be expected.

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Genotypic control of chromosome behaviour in rye

Heredity ◽

10.1038/hdy.1958.8 ◽

1958 ◽

Vol 12 (1) ◽

pp. 101-111 ◽

Cited By ~ 20

Author(s):

H Rees ◽

J B Thompson

Keyword(s):

Chromosome Behaviour ◽

Genotypic Control

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HIM-8 Binds to the X Chromosome Pairing Center and Mediates Chromosome-Specific Meiotic Synapsis

Cell ◽

10.1016/j.cell.2005.09.035 ◽

2005 ◽

Vol 123 (6) ◽

pp. 1051-1063 ◽

Cited By ~ 179

Author(s):

Carolyn M. Phillips ◽

Chihunt Wong ◽

Needhi Bhalla ◽

Peter M. Carlton ◽

Pinky Weiser ◽

...

Keyword(s):

X Chromosome ◽

Chromosome Pairing ◽

Meiotic Synapsis ◽

Pairing Center

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Genotypic control of chromosome behaviour in rye

Heredity ◽

10.1038/hdy.1958.10 ◽

1958 ◽

Vol 12 (1) ◽

pp. 127-131 ◽

Cited By ~ 30

Author(s):

C W Lawrence

Keyword(s):

Chromosome Behaviour ◽

Genotypic Control

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Lack of detectable genetic recombination on the X chromosome during the parthenogenetic production of female and male aphids

Genetics Research ◽

10.1017/s0016672302005657 ◽

2002 ◽

Vol 79 (3) ◽

pp. 203-209 ◽

Cited By ~ 28

Author(s):

DINAH F. HALES ◽

ALEX C. C. WILSON ◽

MATHEW A. SLOANE ◽

JEAN-CHRISTOPHE SIMON ◽

JEAN-FRANÇOIS LEGALLIC ◽

...

Keyword(s):

X Chromosome ◽

Chromosome Pairing ◽

Reproductive Strategies ◽

Genetic Recombination ◽

Full Range ◽

Nucleolar Organizer ◽

Male Production ◽

Cyclical Parthenogenesis ◽

X Chromosomes ◽

Polymorphic Microsatellite

We used polymorphic microsatellite markers to look for recombination during parthenogenetic oogenesis between the X chromosomes of aphids of the tribe Macrosiphini. We examined the X chromosome because it comprises ∼25% of the genome and previous cytological observations of chromosome pairing and nucleolar organizer (NOR) heteromorphism suggest recombination, although the same is not true for autosomes. A total of 564 parthenogenetic females of Myzus clones with three distinct reproductive modes (cyclical parthenogenesis, obligate parthenogenesis and obligate parthenogenesis with male production) were genotyped at three informative X-linked loci. Also, parthenogenetically produced males from clones encompassing the full range of male-producing reproductive strategies were genotyped. These included 391 Myzus persicae males that were genotyped at three X-linked loci and 538 males from Sitobion clones that were genotyped at five informative X-linked loci. Our results show no departure from clonality in parthenogenetic generations of aphids of the tribe Macrosiphini: no recombinant genotypes were observed in parthenogenetically produced males or females.

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