Inter- and intra-plant SC length variation in Crepis capillaris

Azkue, Daniel de; Jones, Gareth R.

doi:10.1038/hdy.1993.150

Cited by 7 publications

(4 citation statements)

References 24 publications

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“…Our results suggest that there are genotypic effects on pairing and recombination in these Hordeum hybrids, as has been found in several other grass species hybrid combinations (DOVER and RILEY 1972;EVANS and AUNG 1985). A positive relationship between SC length and chiasma/recombination frequency has been reported previously in many species (BOJKO 1983(BOJKO , 1985JONES and CROFT 1989;DE AZKUE and JONES 1993;QUEVEDO et al 1997). The hybrids used in the present study, 102C2 and 103K5, have been shown to have mean recombination frequencies of 0.53 and 0.33 per pollen mother cell, respectively (ZHANG et al 1999) and now, a 32 % difference in SC length.…”

Section: Discussionsupporting

confidence: 86%

“…The present study shows an almost two‐fold variation in SC length between the two parental species, H. vulgare and H. bulbosum , and also between the two different interspecific hybrid combinations. It is possible that part of this variation may be due to sampling cells at different stages of pachytene, however, the relationship between pachytene stage and SC length is not clear‐cut and there is no uniform pattern of reduction in length in later pachytene stages (M oses et al 1977; A nderson et al 1985; D e A zkue and J ones 1993). In Hordeum , as in several other plant groups, it is not possible to identify the sub‐stages of pachytene but as our measurements were made on cells prepared from many florets on several occasions they represent a reasonable sample of any intraspecific variation.…”

Section: Discussionmentioning

confidence: 99%

“…The analysis of chromosome behaviour at pachytene has been greatly facilitated by the development of synaptonemal complex (SC) spreading techniques (A lbini et al 1984) that allow the extent of chromosome synapsis to be measured and compared between different plants. Variation in SC length is widely reported to be correlated with recombination frequency in a variety of plant and animal species (J ones and C roft 1989; D e A zkue and J ones 1993; Q uevedo et al 1997). It is also possible to use the frequency of late recombination nodules (RNs) associated with the SC to measure recombination frequencies since the number and location of these nodules corresponds closely with the number and position of chiasmata in a wide variety of species (C arpenter 1975; S tack and A nderson 1986; S tack and R oelofs 1996).…”

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confidence: 99%

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Variable patterns of chromosome synapsis at pachytene in Hordeum vulgarexH. bulbosum hybrids and their parents

2002

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Synaptonemal complexes (SC) have been analysed in barley (Hordeum vulgare), H. bulbosum and two F, hybrids between them. These hybrids show different recombination frequencies and at pachytene show significant differences in the total length of SC formed and in the extent of synapsis. Higher recombination frequency in the hybrids was correlated with a greater total SC length. Differences in SC length were also observed between the parental species with H. bulbosum having a greater SC length than H. vulgare. However, species and hybrid can have similar SC lengths but clearly different recombination frequencies and, therefore, the relationship between SC length and recombination is not clear-cut.

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Section: Discussionsupporting

confidence: 86%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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Variable patterns of chromosome synapsis at pachytene in Hordeum vulgarexH. bulbosum hybrids and their parents

2002

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“…In all these cases, whatever the cause, higher chiasma/crossover frequencies are associated with longer SCs. An indication of the same relationship was found in wild population plants of Crepis capillaris, which was not dependent on sex difference or the presence of additional heterochromatin (de Azkue & Jones, 1993), but this conclusion was very tentative because of the low number of plants included in the study. It therefore remains a priority to determine whether this relationship does obtain in 'normal' individuals, independently of any special effects such as sex difference or possession of heterochromatin.…”

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confidence: 53%

Correlated variation of chiasma frequency and synaptonemal complex length in Locusta migratoria

et al. 1997

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Mean diplotene chiasma frequency is shown to be significantly and positively correlated with mean synaptonemal complex (SC) length in 21 males of Locusta migratoria belonging to three different families. This may reflect a direct causal connection between SC length and chiasma frequency or an indirect relationship arising from the action of other factors with effects on both parameters. Various interpretations of the correlation are discussed in the light of old and new information on synaptic and recombinational processes during meiotic prophase I.

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Synaptonemal complex karyotyping: an appraisal based on a study ofCrepis capillaris

Jones

Azkue

1993

Chromosome Res

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A synaptonemal complex (SC) karyotype for Crepis capillaris, based on SC measurements from 92 surface-spread pachytene nuclei, was compared with the mitotic karyotype of this species in order to evaluate the specific and general validity of SC karyotyping and to assess its potential for high resolution physical mapping. Although there are obvious similarities between the SC and mitotic karyotypes of Crepis capillaris, detailed quantitative comparisons reveal that they differ in some respects, both with regard to the relative lengths of entire chromosomes and arm ratios. The arm ratio differences between SC and mitotic chromosomes are evident in both the A and C chromosomes and reflect the distribution of C-banding heterochromatin. Based on this comparison, heterochromatin appears to be underrepresented in SC length. However, the relative lengths of entire A and C chromosome SCs do not conform to this model and suggest that some other factor or factors are also influencing SC lengths differentially. It is concluded that the non-agreement of SC and mitotic karyotypes does not invalidate the use of SCs for karyotyping and physical mapping purposes provided that any differences are understood and characterized as far as possible.

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Inter- and intra-plant SC length variation in Crepis capillaris

Cited by 7 publications

References 24 publications

Variable patterns of chromosome synapsis at pachytene in Hordeum vulgarexH. bulbosum hybrids and their parents

Variable patterns of chromosome synapsis at pachytene in Hordeum vulgarexH. bulbosum hybrids and their parents

Correlated variation of chiasma frequency and synaptonemal complex length in Locusta migratoria

Synaptonemal complex karyotyping: an appraisal based on a study ofCrepis capillaris

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