A survey is given on the occurrence, the geographic origin and the arm composition of 27 Robertsonian fusion metacentric chromosomes of wild populations of the mouse. Their study is of twofold interest: a) it is possible to introduce these naturally occuring metacentrics in laboratory strains for experimental use. At present, altogether 34 metacentric chromosomes of different composition are available including 7 cases of metacentrics known form laboratory strains of the mouse. b) With the search for metacentrics in the mouse and with their identification insights are permitted in the role of Robertsonian changes in the course of mammalian evolution--Several separate populations of the mouse with different sets of multiple (up to 9) metacentrics have been found in Switzerland and Italy. Some of the individual metacentrics may occur in different populations. The participation of an acrocentric autosome in the formation of metacentrics seem to be at random, but the sex chromosomes are never included in a metacentric.--Homology of the arms involved in metacentrics is conserved, so that in meiosis of interpopulation hybrids is due to mechanisms of segregational imbalance and subsequent prenatal elimination of fetal offspring, but it follows also the pattern of male limited hybrid sterility.--From an evolutionary view point, karyotype rearrangements of Robertsonian type may initiate reproductive isolation, which prepares the ground for further genetic diversification and, as in the case of the mouse, of incipient speciation.
In pursuit of attempts at a systematic study of autosomal trisomy in the mouse, an experimental model is presented which permits the induction of specific trisomic conditions. It is based on (1) the occurrence of considerable rates of meiotic anaphase I malsegregation of double metacentric heterozygotes with monobrachial homology, (2) the expectation that trisomics may be found among the unbalanced conditions in the progeny of crosses of the double heterozygotes with “all acrocentric” mice, and (3) the observation that trisomy, in contrast to monosomy or combined monosomy plus trisomy, is the only unbalanced condition surviving beyond day 10. In this design, the specific nature of the trisomy is predetermined by the choice of the double metacentric heterozygote combination and recognized by such criteria as chromosome arm number and the presence of both metacentrics. All trisomic conditions of the mouse so far studied inevitably lead to early or late fetal death. Although the possibility of a systematic survey of all 19 possible autosomal trisomies in the mouse can be anticipated, this report is limited to a study of trisomies (Ts) 1, 8, 11, 12, and 17. Ts 8, 11, and 17 cause severe developmental inhibition at an early stage of development. Death occurs about day 11 or 12. Ts 1 displays a syndrome of moderate to marked developmental retardation and slight to more distinctly disproportionate hypoplasia. These embryos may survive until day 15. In contrast, a lesser extent of hypoplasia and retardation is observed in Ts 12, which, however, almost regularly shows exencephaly and microphtalmia. Obviously, variation of the severity of phenotypic manifestation of the trisomic conditions is due to genie heterogeneity of the animals used in the present study. Current attempts are directed to introduce a sufficient number of metacentrics in a defined background, thus providing the means for future systematic studies of the phenotypic expression of gross genomic imbalance.
The European longtailed house mouse (M. m. brevirostris and domesticus) in the Rhaetian Alps and Lombardia presents a complex system of Robertsonian (Rb) variation and karyotype diversity, several adjoining populations homozygous for multiple Rb metacentric chromosomes, sites of coexistence of different Rb types, and zones of hybridization with non-Rb populations. The original “tobacco mouse” is just one of many local Rb variants, such as those from other Alpine areas (e.g., Orobian Alps) or from Central Lombardia, where a relatively large region within which the population is homogeneous for multi-Rb metacentrics is found. The present study is based strictly on material in which the chromosome arms were identified by G-banding, so that karyotypes within the areas under investigation could be compared. Altogether Ill mice were studied.
Murine trisomy (Ts) 16 occurs in the fetal and neonatal progeny of males doubly heterozygous for the Robertsonian metacentric chromosomes Rb(16.17)7Bnr/Rb(9.16)9Rma and "all acrocentric" females. The developmental aspects of this trisomy were studied between day 12 of gestation and birth. So far, postnatal survival longer than a few hours after birth has not been observed. The frequency of Ts 16 among all implants decreased from more than 20% on day 14 to values between 4% and 7% shortly before term. Main features of Ts 16 are moderate general hypoplasia, slight developmental retardation, and cardiovascular anomalies. These latter were found in 96% of the trisomies, the great majority belonging to the transposition type, i.e., riding aorta, double outlet right ventricle (DORV) and transposition of the great arteries (TGA). Association with common atrio ventricular (AV)-canal was frequent. Other anomalies as "open eyelid", hydronephrosis, and hydroureter seem to be attributable to the effects of retardation. Generalized transient edema was frequent in the later gestational stages of Ts 16. Severe cardiovascular malformation is possible one of the factors responsible for late fetal or neonatal death in some cases. Another factor probably contributing to Ts 16 fetal mortality is insufficiency of placental function due to hypoplasia of the fetal vasculature of this organ. The teratological study of Ts 16 demands interest since evidence has been forwarded to consider this trisomy as an animal model of human trisomy 21.
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