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1.
J. Sybenga 《Genetica》1965,36(1):243-252
Whilst reliable estimates of chiasma frequencies can usually not be obtained, the probability (b) of a chromosome arm to be bound by at least one chiasma can often be determined. In the absence of interference this probability equals (1–e –2), where 2 is the average chiasma frequency of the chromosome arm and the average crossover frequency or map length. In the presence of interference is shown to retain its genetic meaning as an additive metric that may describe the chromosome arm or other distinctive chromosome segment in terms of genetic recombination. It is a form of potential map length, comparable to, but numerically different from the regular map length. It is termed provisionally crossing-over potential.A chromosome with armsm andn with crossing-over potentials and will form ring bivalents with a frequency (1–e –2).(1–e –2); open bivalents with a frequency (1–e –2).e –2+(1–e –2).e –2; univalent pairs with a frequencye –2.e –2. Estimates of these frequencies yield equations from which and may be solved. In rye (Secale cereale) their ratio (q) is approximately two and differs from the mitotic arm length ratio of 1.4, indicating localization of chiasmata in the long arms.Graphs are given to show how, with constantq, the relation between the probabilitiesb m andb n of the two arms being bound changes with changing averageb.Data are presented on chiasma frequencies in M I, and compared with the frequencies expected in the absence of interference to give an impression of the degree of interference. Apparent fusion of chiasmata simulates interference.  相似文献   

2.
J. Sybenga 《Genetica》1965,36(1):339-350
On an earlier occasion the estimation of the “crossing-over potentials” of the two arms of a chromosome from the relative frequencies of the different types of bivalent was discussed. When in normal diploids the bivalents in M I can not be distinguished from each other, primary trisomics may be used to mark particular chromosomes. For the estimation of the “crossingover potentials” of the two arms the only type of configuration available (trivalent) is not sufficient. The required additional information may be obtained from the average probability (b) of the chromosome arms to be bound. Using the satellite chromosome trisomic ofSecale cereale it is shown that the use ofb introduces an excessive error, especially with highb values. Consequently, the primary trisomics can not be recommended for the estimation of the “crossing-over potentials” of the two arms of particular chromosomes. The telocentric trisomics permit the recognition of more configurations and are to be preferred. Partner exchange and nucleolus may both interfere with chiasma formation. The data suggest that the three homologous chromosomes may not be equal in respect to pairing and chiasma formations. There are indications that the initiation of pairing is localized in one locus on each arm.  相似文献   

3.
J. Sybenga 《Genetica》1966,37(1):199-206
The quadrivalent of an interchange heterozygote can be divided into six regions, each with its own probability of being bound by at least one chiasma. This gives rise to 26 or 64 different possible combinations of bound and not bound regions and as many M I configurations, several of which are isomorph. Sixteen different types of configuration occur, 10 of which involve more than two chromosomes and can thus be distinguished from the non-interchange bivalents. As each combination of bound and not bound regions has a certain probability of occurring depending on the probability of each region to be bound or not, a frequency expectation value can be estimated for each configuration. Also, when the relative frequencies of the different configurations are known, the probabilities of being bound can be estimated for each of the six regions of a quadrivalent, and from these the crossing-over potentials. One translocation heterozygote was studied, involving the long arm of the satellite chromosome of rye (Secale cereale). Crossing-over was reduced, perhaps mainly by partner exchange. The terminal segments retained a relatively high chiasma frequency. The interstitial regions had low chiasma frequencies even when relatively long.  相似文献   

4.
J. Sybenga 《Genetica》1965,36(1):351-361
The estimation of the crossing-over potentials of the two arms of a specific chromosome that can not be recognized in the diploid, was earlier found to be inefficient with the use of the primary trisomic. With the telocentric trisomics two groups of two different configurations each can be recognized that permit a reasonably exact estimation of the two parameters. Each telocentric trisomic yields estimates for both arms. The trisomic arm is underestimated as a result of partner-exchange and/or interference by the nucleolus in a nucleolus bearing arm. The other arm is estimated more correctly. Thus the two telocentrics together give a complete picture of the chromosome. After a correction for differences in overall chiasma frequencies the ratio of the crossing-over potentials of the two arms of the satellite chromosome ofSecale cereale was found to be approximately 2. This is large for a submedian chromosome in comparison with the ratio for the genome as a whole and it is attributed tentatively to the nucleolus interfering with chiasma formation in the short arm. It is suggested that the three homologous arms, especially the long arms, differ in respect to the tendency to pair and in chiasma frequency.  相似文献   

5.
6.
J. Sybenga 《Genetica》1966,37(1):481-510
Information obtained previously and presently on chromosome pairing and chiasma formation in trisomics and in interchange heterozygotes has been applied in newly constructed models for calculating expected MI configuration frequencies in interchange trisomics. Good fit betwen calculated and observed frequencies in some and poor fit in other cases confirmed the expectation of genetic variation in the crossing-over potentials of some or all chromosome regions. If conclusions in respect of chromosome pairing pattern are to be based on relative frequencies of MI configurations, valid values for crossing-over potentials are required. These can only be obtained from genetically comparable material. A few more disturbing factors are recognised. Environmental effects are one of these factors but may have a relatively simple character. Good agreement between expected and observed frequencies of configurations was taken to indicate the validity of the assumption that homologous chromosome end segments have equal probability of being involved in pairing, irrespective of the length of the segment. This conclusion was confirmed by the segregation of chromosomal types in the progenies of interchange trisomics: the excess chromosome was combined as frequently with the interchange set and with the normal set respectively, as expected on basis of the same models, assuming 60–80% viability of trisomes compared to diploids.  相似文献   

7.
8.
H Stern  Y Hotta 《Genetics》1969,61(1):Suppl:27-Suppl:39
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9.
Driscoll CJ  Bielig LM  Darvey NL 《Genetics》1979,91(4):755-767
Presynaptic association of homologous chromosomes is a prerequisite to the sequence of events that lead to chiasma formation. This association of homologous chromosomes, as entire units, occurs with probability a, and chiasma formation occurs independently in opposite chromosome arms with probability c. a and c have been estimated from frequencies of different chromosome configurations at metaphase I of euhexaploid wheat and several derived lines. In the euploid, a is essentially unity and c is of the order of 95%. All changes in the aneuploidy studied involved c rather than a, whereas the change induced by colchicine application primarily involved a.—Observed and expected frequencies of configurations were compared in wheat hybrids in which only homoeologues were present. The expected frequencies of configurations were estimated from the data, based on a being unity for entire groups of homoeologues and c being the probability of chiasma formation between random homoeologous arms. Observed and expected frequences of configurations were in general agreement; however, an excess of observed closed bivalents at the expense of multivalents is interpreted to mean that not all homoeologues are effectively associated in all cells.—In euhexaploid wheat, we suggest that homologues associate with almost certainty, whereas homoeologous pairs of chromosomes associate less efficiently. The aneuploidy examined in this study does not appear to affect the association of chromosomes, but rather the number of chiasmata that eventuate and, in the case of deficiency of chromosome 5B, the distribution of chiasmata within homoelogues, perhaps by way of rendering sites for chiasma formation of homoelogues more similar.  相似文献   

10.
H I Khawaja  J Sybenga  J R Ellis 《Génome》1997,40(6):937-944
Chromosome pairing and chiasma formation were studied in natural and induced tetraploids (2n = 28) of Lathyrus odoratus (induced), Lathyrus pratensis (natural and induced), Lathyrus sativus (induced), and Lathyrus venosus (natural), as well as in triploids of L. pratensis and diploids of L. odoratus, L. pratensis, and L. sativus. All natural tetraploids appeared to be autotetraploids and their meiotic metaphase I behaviour was very similar to that of the induced autotetraploids, with average numbers of pairing partner switches exceeding 4 or even 5. Multivalent frequencies were high, but the numbers of chiasmata were not much higher than necessary to maintain the configurations. Interstitial chiasmata were common, but not predominant. Fertility was reduced, but sufficient for predominantly vegetatively reproducing species. The triploids of L. pratensis had an even higher multivalent frequency than the tetraploids, but still produced some viable progeny at or close to the tetraploid level, suggesting that in mixed populations of diploids and tetraploids, triploids can contribute to gene flow between the ploidy levels. There was no significant correlation between chiasma frequency and ring bivalent frequency in the diploids and multivalent frequency in the corresponding tetraploids. In the tetraploids, chiasma frequency and multivalent frequency were negatively correlated.  相似文献   

11.
12.
Although many studies have been made in an attempt to understand the mechanisms of chromosome pairing and genetic recombination, data on mammalian oogenesis and spermatogenesis are sparse. In the experiments reported here, spermatogenesis of the hibernating male golden hamster was used to test the effect of hibernation in the cold on some essential aspects of meiosis in this species. It was demonstrated that this physiologic state can result in increased duration of preleptotene synthesis of deoxyribonucleic acid (DNA), abnormalities in bivalent pairing, reduced crossing-over, and increased chromosomal nondisjunction. These data provide evidence of the usefulness of this model for further studies of these genetic phenomena in a male mammal.  相似文献   

13.
U. Ayonoadu  H. Rees 《Genetica》1968,39(1):75-81
The mean chiasma frequency at first metaphase of meiosis in pollen mother cells of a maize variety, Black Mexican Sweet Corn, increases with increasing number ofB-chromosomes. The increased chiasma frequency is also reflected by a decrease in the number of rod bivalents at first metaphase. There is some indication that theB-chromosomes also influence the distribution of chiasmata between pollen mother cells. The increase in chiasma frequency due toBs is closely analogous to the increase in crossing-over carlier attributed toBs between marker genes located on chromosome III. Together the evidence confirm the role ofBs in controlling genetic recombination at meiosis.  相似文献   

14.
E Benavente  J Sybenga 《Génome》2004,47(1):122-133
The association pattern of marked tetrasomes of Secale chromosome 1R at meiotic first metaphase was analyzed. Two of the four chromosomes were identical with terminal C-bands at both arms; the other two were also identical but lacked C-bands and were homologous or homeologous with the first two. Four different types of heterozygotes for 1R were studied: (i). autotetraploid hybrids between genetic variants within Secale cereale subsp. cereale, (ii). tetraploid hybrids between subspecies of Secale cereale, (iii). tetraploid hybrids between species of Secale, and (iv). autotetrasomes of S. cereale in a wheat background. Earlier observations that heterozygous associations (banded with unbanded) had consistently higher chiasma frequencies than homozygous associations were extended and confirmed. To analyze this phenomenon more closely, the possible relations between this correlation and several other meiotic phenomena were studied. For this analysis, three genetically different autotetraploid hybrids within S. cereale were selected that differed with respect to the relation between pairing type and chiasma frequency. Special attention was given to different patterns of interference and other meiotic phenomena in the two chromosome arms of chromosome 1R. No relations between such phenomena and the relation between pairing type and chiasma frequency could be established. A hypothesis is formulated assuming that long-distance homologue attraction is concentrated in a limited number of sites and that in different genotypes, different patterns of active sites are present. Moderately weak attraction sites can pair with strong homologous sites under favorable genetic conditions, but two weak sites cannot. Then, heterozygotes have more effective pairing initiation and consequently chiasma formation than homozygotes. Under less favorable conditions, only strong sites are effective, and then, homozygotes pair better, but the chiasma frequency is lower. A model of the forces involved in homologue attraction is presented.  相似文献   

15.
Summary Published information on chromosome knobs found at 21 knob-forming positions and on abnormal 10 and B chromosomes in maize, Zea mays L., was used to place maize populations within a multidimensional space based on frequencies. From this space, similarities among populations were determined using a measure of gentic diversity based on a modified Cartesian distance. Populations were portrayed in 2 (or 3) dimensions based on these distances. The objective was to investigate patterns of migration that had occurred among indigenous populations of maize from Latin America. Widely dispersed collections classified as Tuxpeño had similar knob constitutions. Collections from Guatemala reflected continuous migration among adjacent areas with increased isolation (or association of knob types) with increased altitude of collection. Maize from southeastern Guatemala and their southeastern neighbours were similar. The high elevation collections from Guatemala and Mexico were surprisingly similar. The data reflected three distinct phenomena: long-term intergradation of maize germplasm among adjacent areas (as would result from pollen drift between closely cultivated areas or from seed exchange among neighbors), major, relatively recent shifts in gene flow (as had occurred with Tuxpeño's widespread distribution in Mexico), and precolonial dispersions (as between maize populations from the high elevations in Guatemala and Mexico).Paper No. 8846 of the Journal Series of the North Carolina Agricultural Research Service, Raleigh, NC, USA  相似文献   

16.
17.
The data on spontaneous chromosome aberration rates in cultures of human peripheral blood lymphocytes obtained in the past 30 years have been collected to form a database. The database contains the results of analysis of more than 330,000 metaphases in lymphocytes from more than 1200 subjects. The frequency of aberrant metaphases in the control group has been estimated at 0.0213 +/- 0.00085. No differences between sexes have been found with respect to either the total chromosome aberration rate or the rates of individual aberration types. The total chromosome aberration rate did not depend on age; however, it has been found that the number of fragments increased and the number of exchanges decreased with age. Smoking has been found to increase the frequency of chromosome aberrations in individuals with occupational hazards, but not in those who are not occupationally exposed to radiation or chemicals. Alcohol consumption increased the frequency of paired fragments, whereas the frequencies of other aberrations did not differ from the control values.  相似文献   

18.
Driscoll CJ 《Genetics》1979,92(3):947-951
Analyses of frequencies of chromosome configurations in wheat and wheat hybrids are extended to include data from hybrids of three chromosome-pairing mutants of wheat with Aegilops variabilis and from autotetraploid Triticum monococcum. These data confirm and extend the theory proposed by Driscoll, Bielig and Darvey (1979). Homoeologous and homologous chromosome pairing are fundamentally identical. The mode of action of the genes regulating pairing in wheat involves either physical alteration in the chromosomes themselves or changes in an enzyme system that monitors pairing.  相似文献   

19.
G. H. Jones 《Chromosoma》1973,42(2):145-162
The relationship of chromosome pairing to chiasma localisation in the grasshopper Stethophyma grossum was investigated by a combined light and electron microscope study. Observations on the extent of synaptonemal complex formation in spermatocytes suggest that pairing is complete in all chromosome regions and that localised chiasmata do not therefore follow from localised pairing of homologues. This study also revealed an unprecedented variant of synaptonemal complex structure. Each bivalent was found to contain an asymmetrical region within which one lateral element was enormously enlarged while the other lateral element retained normal dimensions. This asymmetrical region is probably confined to one end of each bivalent and seems to extend constantly about 4 from the nuclear membrane attachment site. The possible significance of this variant of synaptonemal complex structure is briefly discussed.  相似文献   

20.
Blat Y  Protacio RU  Hunter N  Kleckner N 《Cell》2002,111(6):791-802
Analysis of meiotic recombination by functional genomic approaches reveals prominent spatial and functional interactions among diverse organizational determinants. Recombination occurs between chromatin loop sequences; however, these sequences are spatially tethered to underlying chromosome axes via their recombinosomes. Meiotic chromosomal protein, Red1, localizes to chromosome axes; however, Red1 loading is modulated by R/G-bands isochores and thus by bulk chromatin state. Recombination is also modulated by isochore determinants: R-bands differentially favor double-strand break (DSB) formation but disfavor subsequent loading of meiotic RecA homolog, Dmc1. Red1 promotes DSB formation in both R- and G-bands and then promotes Dmc1 loading, specifically counteracting disfavoring R-band effects. These complexities are discussed in the context of chiasma formation as a series of coordinated local changes at the DNA and chromosome-axis levels.  相似文献   

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