Effects of supernumerary heterochromatin on chiasma condition in two species of Acrididae (Orthoptera)

Amblytropidia australis and Dichroplus elongatus were found to be polymorphic for supernumerary heterochromatin. In both, basic karyotypes are 2n=22+XO in males.Mitotically unstable extra chromosomes were detected in a population of A. australis. The Bs are telocentric and their number varies from O to 2 within individuals. Mean frequencies of interstitial and total chiasmata at diplotene were compared between individuals with and without Bs. The mean frequency of interstitial chiasmata increases with the number of Bs per cell.A supernumerary terminal segment in S₁₀ pair was observed in a heterozygous condition in several individuals of D. elongatus. The localization and frequency of chiasmata at diplotene were studied. The segment has an intrachromosomal effect since it modifies the location of chiasmata in the bivalent involved.Fellow of the Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET).     

Aging and chiasma frequency in Eyprepocnemis plorans (Orthoptera: Acrididae)

The mean frequency of chiasmata was analysed in 29 males of the grasshopper Eyprepocnemis plorans at three different ages considered representative of the whole adult life in this species. In the factors which could potentially affect the parameter studied—namely age, family, individual and the presence or absence of B chromosomes—significant differences were only observed at the individual level. Aging produces no general effect but interacts strongly with the individuals though the age-induced variations in chiasma frequency are not directional. The fact that the range of chiasma frequency variation found within individuals at different ages is comparable to that existing among individuals indicates that the adaptive role of such variations in natural populations must be taken with caution.     

Studies on chiasma distribution and chiasma movement in Zoniopoda tarsata (Orthoptera: Romaleidae)

A sample of 27 males of Zoniopoda tarsata from Argentina was studied cytologically. The three largest autosomal pairs and the X were characterized by the presence of interstitial C-bands. Chiasma position relative to the bands was analyzed at diplotene and diakinesis. The frequency of interstitial, terminal and total chiasmata per cell was studied for the whole autosomal bivalent set, analysing the variations between stages and among individuals. The comparison of interstitial chiasma frequencies between stages and among individuals and the study of chiasma position relative to the bands in pairs 1, 2 and 3 indicated that chiasma distribution varied from diplotene to diakinesis. Therefore, terminalization does exist in this species and the movement may occur towards the centromere. The frequency of terminal associations at diplotene showed a high negative correlation (r=-0.89; p<10^-5) with the number of interstitial chiasmata. This correlation would not be expected if the two kinds of association were produced by different (independent) mechanisms. Consequently, terminal associations were considered genuine chiasmata. The correlation between interstitial and total chiasmata was very much lower then the former (r=0.39; p=0.04). This fact, besides the relatively low variation for chiasma number, observed among individuals suggests that in this species the number of interestitial chiasmata, which are the most important in controlling the genetical recombination, is mainly regulated by changes in chiasma distribution, while variations in total chiasma frequency are of much lower magnitude.Member of Carrera del Investigador del Consejo Nacional de Investigaciones Cientificas y Técnicas (CONICET)     

Comparative chiasma analysis using a computerised optical digitiser

A new computerised technique has been devised for measuring the distribution of chiasmata along diplotene bivalents. The method involves the introduction into the field of view of the microscope, of a fine light spot which can be accurately manipulated along the chromosomes of each bivalent. The data recorded include (a) the positions of the chiasmata along the bivalent in terms of their relative distances from the centromere and (b) the individual bivalent and cellular chiasma frequencies. — The method has been applied to the analysis of chiasma distribution patterns in the two known species of the genus Caledia, C. species nova 1 and C. captiva and in two chromosomal races of the latter. Statistical tests indicate that within bivalents at least 40% of the comparative distribution patterns of chiasmata between races and species are significantly different. Similar comparisons between populations within races reveal only 18% significant differences. — The observed distribution patterns of chiasmata in this genus suggest that chiasma formation is sequential from centromere to telomere. — The variation in the frequency and distribution of chiasmata between races and species suggests that the interference distances between successive chiasmata are, at least partially, independent of chiasma frequency and position. — The interracial and interspecific differences in chromosome structure are correlated with changes in chiasma pattern.     

Meiosis VII: “Detorsive bending” as a basis for geometric shapes of late prophase bivalents

A new model depending on mechanical properties of chromosomes is adduced as a basis for diplotene opening-out and for curvature occurring in grasshopper bivalents, during and subsequent to diplotene. Conditions underlying the model are: (1) rigid physical binding exists between sister chromatids, (2) each chromatid remains free of torsional strain if its pairing face is straight, i.e. the chromatid is bilaterally symmetrical, (3) reciprocal exchange together with stiff binding between sisters produces twist in each chromated before diplotene begins, (4) stiffening of the bivalent during late meiotic prophase removes the twist resulting from reciprocal exchange, (5) since sister binding prevents untwisting of chromatids about their long axes, untwisting would be achieved only in conjunction withbending of each chromated. It is shown that this bending, called detorsive bending, automatically produces opening out, not only in bivalents with one chiasma but also in those with more than one, especially if the chiasmata are interstitial.In bivalonts with two chiasmata, classes of curvature resulting when both chiasmata are interstitial (II), when one is interstitial and one terminal (IT) and when both are terminal (TT) are attributed to differences in strength of opening out at interstitial and at terminal chiasmata respectively. It is postulated that mechanisms responsible for opening out at terminal chiasmata are basically different from those at interstitial chiasmata.A theoretical basis of a method for cytological detection of chromatid interference is outlined and arguments are presented against the electrostatic hypothesis.     

Analysis of exchanges in differentially stained meiotic chromosomes of Locusta migratoria after BrdU-substitution and FPG staining

Differential staining of the sister-chromatids of meiotic chromosomes of Locusta migratoria was achieved following abdominal implantation of BrdU tablets and fluorescent plus Giemsa (FPG) staining of fixed and squashed testicular follicles. This paper presents a detailed analysis of crossover exchanges between light and dark chromatids in monochiasmate bivalents. Approximately half the bivalents studied had visible exchanges of dark and light chromatids associated with the chiasmata, as expected if chiasmata originate by breakage and rejoining exchange events between randomly selected non-sister chromatids. In all the bivalents studied the visible crossover exchanges coincided exactly with chiasmata thus showing that chiasma movement (terminalisation) does not occur subsequent to crossing-over in Locusta migratoria, and that chiasmata are therefore accurate indicators of crossing over. It was noted that a proportion (9.5%) of chiasmata were associated with apparently anomalous exchanges of dark and light chromatids which could not be explained by conventional crossing-over. Various hypotheses for the origin of these anomalous exchanges are considered.     

Chiasma distribution in asynaptic Locusta migratoria

The formation of chiasmata in six full sib male partially asynaptic individuals of Locusta migratoria has been studied. The mean chiasma frequency per cell was 2.3 both at diplotene and metaphase I. Chiasmata tended to be distributed evenly among the bivalents. The frequency and distribution of the chiasmata in each type of bivalent (L, M, or S) depended on the level of asynapsis and on interference between the bivalents. Short bivalents were the most affected by interference, while M bivalents associated independently of L and S bivalent behaviour.     

Mitotic chiasmata and other quadriradials in mitomycin C-treated Bloom's syndrome lymphocytes

Mitotic chiasmata and other quadriradials (QRs) were studied by Q-banding in mitomycin C-treated and untreated lymphocytes from two sibs with Bloom's syndrome. The frequency of chiasmata was very significantly increased by the mitomycin treatment in cells from both sibs. Chiasmata occurred throughout the chromosomes, but were favored in Q-dark regions, particularly at borders between dark and light regions (Kuhn, 1976). No significant difference was found in the distribution of chiasmata among chromosome regions in treated and untreated material. This differs from the reported action of mitomycin C on cultured lymphocytes of normal persons, where chiasmata are concentrated at secondary constrictions and centromeres. Adjacent counterparts to mitotic chiasmata, and chromatid translocations between non-homologous chromosomes, also occurred in the treated material, but with a much lower frequency than mitotic chiasmata. This again differs from the effects of mitomycin C on lymphocytes of normal persons, where chiasmata account for 20% or less of total QRs.This is paper No. 2054 from the Genetics Laboratory, University of Wisconsin, Madison     

Intergeneric hybridization and C-banding patterns inHordelymus (Triticeae,Poaceae)

Crosses ofHordelymus europaeus (2n = 4x = 28) with four genera in theTriticeae were attempted. Adult hybrids were obtained in combinations withHordeum bogdanii (2x),Hordeum depressum (4x), andSecale cereale (2x). The meiotic pairing was very low in the hybrids withH. bogdanii andSecale cereale (0.12 and 0.30 chiasmata/cell, respectively), whereas high pairing (9.90 chiasmata/cell) was found in hybrids withH. depressum due to autosyndetic pairing ofH. depressum chromosomes. The chromosome complement ofHordelymus europaeus comprised 16 metacentrics, 8 submetacentrics, and 4 SAT-chromosomes. The Giemsa C-banding patterns of the chromosomes were characterized by small to minute bands at no preferential positions. It is hypothesized thatHordelymus europaeus may genomically be closest related toTaeniatherum andPsathyrostachys spp.     

A comparative study of mitotic and meiotic chromosomes of the Montandon's newt,Triturus montandoni (Urodela: Salamandridae) from Poland and Rumania

A karyological analysis was carried out on two populations ofTriturus montandoni, one from Poland and another from Rumania. For both samples, morphometric characteristics and C-banding pattern of mitotic chromosomes are provided. Only slight differences between specimens from two geographic localities were found. Data on chiasma frequency and distribution are presented for male meiosis. No sex-related heteromorphism was found and for none of the chromosomal arms was a consistent absence of chiasmata recorded. There was a relatively high proportion of spermatocyte metaphases I with chiasmata on both arms of all chromosomes in all specimens studied. It is concluded that there are no well-defined sex chromosomes in the chromosomal complement of the maleT. montandoni. The findings are compared with previous studies on chromosome morphology, C-banding pattern, and meiosis in closely related species,T. vulgaris andT. helveticus.     

Chromosome polymorphism in populations of the grasshopper Trimerotropis pallidipennis from southern Argentina

Three populations of the grasshopper Trimerotropis pallidipennis from southern Argentina have been studied cytologically. A very characteristic B-chromosome was found in all three. They also showed geographical variability in respect of the presence of pericentric inversions, and the inversion system was found to influence chiasma frequency. The Laguna Blanca population, which is on the hypothetical pathway the species is believed to have followed during its migration from northern to southern latitudes, has the same karyotype composition as the N. American form, with fixed inversions in the 3 largest autosomes and the X-chromosome. Its members have a high total chiasma frequency and a great number of interstitial chiasmata. The Sierra de la Ventana population, situated at the absolute eastern border of the species distribution is highly polymorphic with respect to the presence of inversions in the medium chromosomes. Its members have the lowest total chiasma frequency and a greatly reduced number of interstitial chiasmata. Situated geographically between the other two, the Choele-Choel population has the highest frequency of inversions and many of them are homozygous. Its members have a higher total chiasma frequency than that observed in specimens from Sierra de la Ventana, and a greatly reduced number of interstitial chiasmata, similar to that observed in individuals from the latter population.     

Chiasmata and the breeding system in wild populations of diploid wheats

Seven populations of the selfer Triticum longissimum (= Aegilops longissima) and five populations of the closely related outbreeder T. speltoides (= Ae. speltoides) were scored for chiasma frequencies in pollen mother cells. The populations of the selfer have significantly higher frequencies of chiasmata than the outbreeding populations. This difference becomes even clearer when interstitial chiasmata alone are compared. It is argued that an optimal degree of effective recombination is achieved by the balance between outbreeding and interstitial chiasmata. — There are wider differences between the selfing populations than between the outbreeding populations, but the differences between families (within populations) are small in both species. Variation between plants within families seems to be lower in the selfer, but nevertheless high enough to be inexplicable on the basis of selfing alone. — Small populations subject to hardship conditions show a higher frequency of chiasmata than others.     

Cytological studies of the two-spotted spider mite Tetranychus urticae Koch (tetranychidae,trombidiformes) II. Meiosis in growing oocytes

The morphology and behaviour of the holokinetic chromosomes of Tetranychus urticae Koch were studied in maturing oocytes from diplotene up to and including metaphase. Each of the three diplotene bivalents contains 2–3 chiasmata.During congression the dyads of the axially orientated bivalents make turning movements in opposite directions till they have reached an equatorial orientation which leads to an equational first meiotic division.It was argued that chiasmata terminalise towards both ends of the dyads and that each dyad contains two sister chromatids.It has been supposed that the inverted meiosis of organisms with holokinetic chromosomes can be brought about by the way in which chiasmata terminalise and the kinetochores are assembled subsequently on each chromatid.During congression vesicular strands form a Feulgen-negative zone round the bright plasm in which the bivalents are embedded. The question was raised whether these strands originate from the dense plasm surrounding each of the diplotene bivalents and bear some relation to the elimination chromatin present during the meiotic telophases.This investigation was supported by research grants from the Ministry of Public Health and Environment and from the Netherlands Organization for the Advancement of Pure Research (Z.W.O.).     

Cytogenetic studies on Chorthippus jucundus (Fisch.) (Orthoptera) III. The meiotic consequences of a spontaneous centric fusion

A spontaneous structural heterozygote originated from a centric fusion involving two acrocentric autosomes (M₅ and S₈) in a male Chorthippus jucundus (2n=16+X) was tested for the effects on chiasmata characteristics and the role that these could play in metaphase-I orientation of the trivalent. Results show non-existence of inter- or intra-chromosomal effects on chiasma frequency when compared with standard individuals, and displacement of the single chiasma on the S₈ to a distal position while no significant change is appreciated in the M₅ chiasma distribution. The presence of two chiasmata on the M₅ and one on the S₈ always induces a linear orientation of the trivalent. However, when two chiasmata are present (one on each chromosome) and independently of their location on each arm (proximal, interstitial of distal) any of the possible orientations (linear or convergent) can be attained. The frequency of linear orientation is higher than that expected at random in the resulting trivalent during metaphase-I and the rate of reorientation is very low.The meitotic behaviour of such a trivalent is discussed taking into account the already mentioned aspects together with the size of the fused element.     

Myths and mechanisms of meiosis

A comparative analysis of the meiotic secquence in a wide variety of organisms indicates there is no convincing evidence that: (1) Premeiotic pairing plays any role in the synapsis of homologues. (2) Heterochromatic association facilitates homologous pairing. (3) Chiasmata ever form within segments which are positively heteropycnotic at zygotenepachytene. (4) Localisation of chiasmata depends on prior localisation of pairing or on the occurrence of euchromatin-heterochromatin boundaries. (5) Prior association of centromeres plays any role in determining co-orientation. (6) Any form of supra-chromosomal organisation exists involving permanent association between the members of a haploid complement, and (7) Unequal progeny ratios recovered from structurally modified Drosophila complements arise as a consequence of distributive pairing. — On the other hand there is good evidence that: (1) Interlocking of bivalents can occur regularly in species with a chiasma frequency sufficiently high to regularly produce ring bivalents and in which the chiasmata are localised to the ends of the bivalent. (2) Some forms of terminal association cannot represent terminalised chiasmata. (3) U-type exchanges present at diplotene result from errors in crossing over. (4) Pairing and chiasma formation are not necessary for coorientation, and (5) at least some types of elastic constrictions present at first metaphase represent extended nucleolar organisers.In memory of the late Stanley G. Smith and his signal contribution to the science of cytogenetics.     

Recombination nodules and chiasma localization in two orthoptera

The distribution of recombination nodules (RNs) is reported from observations on two-dimensional spreads of Locusta migratoria and Chloealtis conspersa spermatocytes; C. conspersa is a known example of a species with terminally localized chiasmata, while L. migratoria has nonspecific positioning of chiasmata. Measurements of the distances from 102 RNs to the ends of the synaptonemal complexes (SCs) on which they were found show the RNs to be near-terminally localized in C. conspersa and to occur along the lengths of the SCs in L. migratoria. Thus, the localization of RNs appears to reflect the localization of chiasmata. These observations are interpreted as support for the proposed recombinant function of RNs.     

Synapsis in Robertsonian heterozygotes and homozygotes of Dichroplus pratensis (Melanoplinae, Acrididae) and its relationship with chiasma patterns

Dichroplus pratensis has a complex system of Robertsonian rearrangements with central-marginal distribution; marginal populations are standard telocentric. Standard bivalents show a proximal-distal chiasma pattern in both sexes. In Robertsonian individuals a redistribution of chiasmata occurs: proximal chiasmata are suppressed in fusion trivalents and bivalents which usually display a single distal chiasma per chromosome arm. In this paper we studied the synaptic patterns of homologous chromosomes at prophase I of different Robertsonian status in order to find a mechanistic explanation for the observed phenomenon of redistribution of chiasmata. Synaptonemal complexes of males with different karyotypes were analysed by transmission electron microscopy in surface-spread preparations. The study of zygotene and early pachytene nuclei revealed that in the former, pericentromeric regions are the last to synapse in Robertsonian trivalents and bivalents and normally remain asynaptic at pachytene in the case of trivalents, but complete pairing in bivalents. Telocentric (standard) bivalents usually show complete synapsis at pachytene, but different degrees of interstitial asynapsis during zygotene, suggesting that synapsis starts in opposite (centromeric and distal) ends. The sequential nature of synapsis in the three types of configuration is directly related to their patterns of chiasma localisation at diplotene-metaphase I, and strongly supports our previous idea that Rb fusions instantly produce a redistribution of chiasmata towards chromosome ends by reducing the early pairing regions (which pair first, remain paired longer and thus would have a higher probability of forming chiasmata) from four to two (independently of the heterozygous or homozygous status of the fusion). Pericentromeric regions would pair the last, thus chiasma formation is strongly reduced in these areas contrary to what occurs in telocentric bivalents.     

Meiotic segregation of chromosomes in Drosophila melanogaster oocytes

A new technique was developed for a light microscopic analysis of meiosis in Drosophila oocytes. — When the nuclear envelope breaks down the bivalents, till then compressed into a karyosome, separate in early prometaphase. The homologues remain associated by chiasmata except for the fourth chromosomes which are no longer associated. Non-homologous chromosomes regularly segregating from each other in genetic experiments are also unconnected after karyosome disintegration but during metaphase I the fourth chromosomes and the heterologous pairs coorient on the same arc of the spindle and move precociously towards opposite poles. Nondisjunction and other irregularities are not infrequent in oocytes having an uneven number of achiasmatic elements. The fourth chromosomes and the Xs or the large autosomes, when lacking chiasmata, may be involved in non-homologous segregation. In c3G homozygotes all chromosomes appear as univalents in prometaphase. Segregation is variable but the observations suggest the polar distribution of equal numbers of chromosomes in variable combinations irrespective of the size. — Coorientation of univalents may be accounted for if the centromeres, whether homologous or non-homologous, are associated in pairs during early meiotic prophase, and that in the karyosome these pairing relationships are preserved until spindle organization at the onset of prometaphase.     

Cyclic variation of chiasma frequency and distribution in Podarcis sicula (Reptilia: Lacertidae)

The seasonal variations of chiasma frequency and distribution have been studied in the lizard: Podareis sicula. In this species, as in Phyllodactylus (King & Hayman, Chromosoma 69: 131–154, 1978), chiasma frequencies vary following a definite annual cycle, and clearly different trends are shown by interstitial and terminal chiasmata.A comparison between these seasonal chiasma frequency variations and those of environmental temperature shows the existence of a clear correlation between these two parameters. However, this correlation is different in the two types of chiasmata, and may be different within the same type of chiasma depending on the period of the year.A more significant correlation is observed between chiasma cycles and annual variations of the haematic levels of sexual steroid hormones. In particular we observe a highly significant correlation between interstitial chiasma frequencies and testosterone concentration. A less precise correlation between terminal chiasma frequencies and estradiol concentration is also observed.In Podarcis, as in Phyllodactylus, the sperm that will be used for fertilization derive from the spermatocytes showing the highest rate of interstitial chiasmata. This supports the hypothesis that the cyclic variations in interstitial chiasma frequencies represent a mechanism to ensure an adequate level of variability in a given population. The above mentioned correlation between chiasma frequencies and steroia hormone concentrations suggests that the seasonal chiasma cycles are controlled by the same environmental and hormonal factors regulating the spermatogenetic cycle.     

Chiasmata distribution in the normal karyotype of mice

The number of chiasmata per cell and variance of chiasmata numbers were studied, as well as the recombinational interaction between different bivalents in CBA/Lac mice male line. No competition of bivalents for chiasmata was discovered in mice; at the same time, the chiasmata within one arm of the chromosome interfere with each other. The number of chiasmata per bivalent is estimated for each chromosome independently. The number of chiasmata per chromosome is limited both from below (minimum one chiasma independently of its size) and from above (positive interference of chiasmata).