Matilde Ragghianti

Banding patterns in newt chromosomes by the giemsa stain

Specific banding patterns can be produced on the mitotic chromosomes of the newt species Triturus vulgaris meridionalis and T. italicus by using the Giemsa stain technique. These bands are most useful cytogenetic markers in karyotyping, since they facilitate identification of the individual elements of the complements. Evaluation of the shape of chromosomes as well as of the banding patterns produced by the Giemsa stain indicates that the karyotypes of T. vulgaris meridionalis and T. italicus are differentiated: hence the specific distinction of the two Salamandrids, still debated by taxonomists, appears supported by chromosome evidence. — Most of the bands seem to correspond to the heterochromatic tracts observable on mitotic chromosomes from embryos and larvae either untreated or submitted to cold treatment. Besides, the comparison of mitotic karyotypes and lampbrush maps shows that the bands located near the centromeric regions of mitotic chromosomes probably correspond to the so-called bars visible on either side of centromeres of lampbrush chromosomes, while some of the subterminal bands may correspond to the sphere.

Molecular characterization of a centromeric satellite DNA in the hemiclonal hybrid frogRana esculenta and its parental species

Hybrid water frogsRana esculenta reproduce by hybridogenesis: one parental genome (ofRana lessonae) is excluded in the germ line, the other (ofRana ridibunda) is clonally transmitted to haploid gametes. The two parental species differ in that the amount of centromeric heterochromatin revealed by differential staining is much higher inRana ridibunda. An abundant, tandemly arrayed, centromeric satellite DNA, designated RrS1, is revealed inRana ridibunda genomes by the restriction endonucleaseStul, which generates a major repetitive sequence fragment of 300 and a minor one of 200 bp. This AT-rich (68%) satellite family is located at the centromeres of the five largest chromosomes (1–5) and of a medium to small heterobrachial one (8 or 9); it thus constitutes only part of the centromeric heterochromatin that characterizes allRana ridibunda chromosomes. RrS1 represents about 2.5% of the genome ofRana ridibunda; it may represent as little as 0.2% of the genome ofRana lessonae, and cannot be detected inXenopus laevis frogs orSalamandra salamandra andTriturus carnifex salamanders. Segments of the satellite sequence are similar to sequences of yeast centromeric DNA element CDEIII and of the mammalian CENP-B box. A role for RrS1 and other centromeric satellite DNAs in the germ line genome exclusion of the hybridogenetic frog hybrids, although suggested, has not yet been demonstrated.

Characterization of the lampbrush chromosomes of the marbled newt Triturus marmoratus (Latreille, 1800).

The maps of the lampbrush chromosomes of Triturus marmoratus oocytes were constructed on the basis of their lengths and major morphological characters such as giant fusing loops, dense matrix loops, lumpy objects, axial granules, lateral globules and reflected fusions; a nucleolus organizing region occurs subterminally on the right side of chromosome X. — Bivalent I appears morphologically asymmetrical, its two partners being of different lengths and bearing heteromorphic loops and other heterozygous structures: this heteromorphism may indicate that the two partners of bivalent I represent the ZW heterochromosomes of the species. Finally, an autoradiographic study has been performed in order to ascertain the pattern of 3H-uridine incorporation shown by the most typical landmarks and nucleoli.

Tests of toxicity and teratogenicity in biphasic vertebrates treated with heavy metals (Cr3+, A13+, Cd2+)

Developmental toxicity of chromium(III), aluminium(III) and cadmium(II) were evaluated by examining abnormalities and mortality in embryos belonging to different species of amphibians. Cr(III) and Al(III) are lethal at 1.5 mM concentration, and seriously affect the differentiation of central nervous system, skeleton and eye, and cause cephalic and trunk oedemas at lower concentrations, being aluminium significantly more harmful than chromium. Cd(II), tested only in P. waltl, is highly toxic: embryos exposed to concentrations ranging from 0.18 to 50 microM display malformations, delay and arrest of development in a dose dependent manner.

Gametogenesis of intergroup hybrids of hemiclonal frogs

European water frog hybrids Rana esculenta (R. ridibundaxR. lessonae) reproduce hemiclonally, by hybridogenesis: in the germ line they exclude the genome of one parental species and produce haploid gametes with an unrecombined genome of the other parental species. In the widespread L-E population system, both sexes of hybrids (E) coexist with R. lessonae (L). They exclude the lessonae genome and produce ridibunda gametes. In the R-E system, hybrid males coexist with R. ridibunda (R); they exclude either their ridibunda or their lessonae genome and produce sperm with a lessonae or with a ridibunda genome or a mixture of both kinds of sperm. We examined 13 male offspring, 12 of which were from crosses between L-E system and R-E system frogs. All were somatically hybrid. With one exception, they excluded the lessonae genome in the germ line and subsequently endoreduplicated the ridibunda genome. Spermatogonial metaphases contained a haploid or a diploid number of ridibunda chromosomes, identified through in situ hybridization to a satellite DNA marker, and by spermatocyte I metaphases containing a haploid number of ridibunda bivalents. The exception, an F1 hybrid between L-E system R. lessonae and R-E system R. ridibunda, was not hybridogenetic, showed no genome exclusion, and evidenced a disturbed gametogenesis resulting from the combination of two heterospecific genomes. None of the hybridogenetic hybrids showed any cell lines excluding the ridibunda genome, the pattern most frequent in hybrids of the R-E system, unique to that system, and essential for its persistence. A particular combination of R-E system lessonae and R-E system ridibunda genomes seems necessary to induce the R-E system type of hemiclonal gametogenesis.

Lampbrush chromosomes from semi-albino crested newts,Triturus Cristatus Carnifex (Laurenti)

Sono stati studiati i «lampbrush chromosomes» di mutanti semi-albini diTriturus cristatus carnifex. Il rilevamento degli organizzatori nucleolari ha permesso il completamento delle mappe cromosomiche della specie.

Experimental hybridization within the genus Triturus (Urodela: Salamandridae)

The spermatogenesis of 9 F1 hybrids of Triturus cristatus carnifex ♀ × T. vulgaris meridionalis ♂ was studied in squash preparations of testicular fragments, treated by the C-staining method. The chromosome number of these hybrids was examined in spermatogonial metaphases and found to be diploid. The two parental sets were always recognized, which means that a regular, although heterospecific, amphimixis occurred (2n=n♀+n♂). Meiotic prophase I is greatly altered owing to a failure of typical chromosome pairing and chiasma formation. At metaphase I and/or meta-anaphase I, the effects of the hybrid combination of the 2 specific parental sets are clearly visible. Most primary spermatocytes contain only univalents. A few show chromosome associations (bivalents, trivalents and, more rarely, quadrivalent chains) besides univalents. Such associations are of 2 types: (a) intragenomal associations = associations of 2 chromosomes by a terminal (a1) or subterminal chiasma (a2); (b) intergenomal associations = associations of 2 chromosomes by a terminal (b1) or subterminal chiasma (b2). Univalents segregate at random while the associations often lag on the equatorial plane or migrate entire to a spindle pole. Primary spermatocytes with chromosome multivalents can encounter greater difficulties in accomplishing the first cytokinesis. Secondary spermatocytes are numerically and qualitatively unbalanced; however, some of them undergo spermiogenesis and can give rise to a small number of sperms, generally abnormal and never united in bundles. — Problems related to the occurrence of “anomalous” chiasmata and of intra- and inter-genomal homologies are discussed.

Chromosome and C-heterochromatin polymorphisms in the Italian newt, Triturus italicus

A combined chromosome and C-heterochromatin polymorphism in pair 12 in the complement of the newt species, T. italicus is described. The C-heterochromatin polymorphism is presumably due to a loss in the proximal C-band, whereas the chromosomal polymorphism has its origin in two different independent pericentric inversions both including the centromere and the proximal C-band of chromosome 12. The double-inversion polymorphism has a wide distribution over the range and follows a clear bipolarity between a northern area where the karyotype is homomorphic for the standard type of pair 12 (ST/ST) and an opposite area where the ST type is completely replaced by variant M1 and M2 metacentric chromosomes 12. Various karyophylogenies are possible, but the simplest and the most probable presumes an ancestral karyotype of ST/ST and a mechanism of gradual replacement of the heterobrachial chromosome ST by two independent pericentric inversions. The present data are discussed in relation to existing theories on karyological evolution of Urodeles and the functional significance of telocentric chromosomes suggested by Sessions et al. (1982).

A novel approach to cytotaxonomic and cytogenetic studies in the genus Triturus using monoclonal antibodies to lampbrush chromosomes antigens

Monoclonal antibodies against germinal vesicle antigens from Pleurodeles oocytes crossreact with lampbrush chromosomes of various Triturus species: C36/6, A33/22 and B71/22 bind to most lateral loops, B24/3 labels the spheres, while A1/5 and B81 give a distribution of fluorescent loops which is highly reproducible and species specific. — The antigens involved were characterized by immunoblotting of electrophoretic gels of germinal vesicle proteins and the molecular weights of those that bound to monoclonal antibodies C36/6, A33/22, B24/3 and C3/1 were determined. — The possible relationship between sites immunostained by some monoclonal antibodies and given DNA sequences distributed along the chromosomes is discussed. A new approach to cytotaxonomic and cytogenetic studies through the use of monoclonal antibodies on lampbrush chromosomes is offered, which can give new insight into the molecular mechanisms of speciation and karyological evolution in European newt species.

Chromosome polymorphism in the Italian newt, Triturus italicus.

A chromosomal variation, changing shape and C-banding pattern of chromosome XII of Triturus italicus was detected among the offspring of two F1 hybrid families of T. italicus ♀ × T. vulgaris meridionalis ♂. In both families a number of individuals appeared to have a metacentric instead of the expected subtelocentric chromosome XII of T. italicus. — Investigations in three well separated localities in the range of the species showed the polymorphism to have a wide distribution and to be part of a complex pattern involving at least two inversions and (presumably) deficiencies of large C-bands. At meiosis, the shape of bivalent XII, and the location and frequency of chiasmata in the bivalent varied with the karyomorph involved. It is suggested that large rearrangements may still play an important role in the karyological evolution of Triturus.