Abstract
Karyotype analysis and morphometric measurement of the chromosomes of 17 species of snakes have been done. Chromosomes of different species so far worked out in each family have been compared using quantitative methods to derive chromosomal affinities between species of different taxonomic categories. The following conclusions have been drawn: (i) It is suggested that the retention of Xenopeltidae as a separate family is unnecessary and the only species Xenopeltis unicolor referred to in that group should be included in the family Boidae. (ii) The subfamilies, Boinae and Pythoninae cannot be distinguished chromosomally. (iii) On the basis of chromosomal similarities, the cytologically known species of Colubridae. have been put into 13 different groupings which do not always correspond to the views of the present day colubrid taxonomists. (iv) In Hydrophiidae, speciation seems to have occurred through changes in the 4th pair of autosomes and sex chromosomes in general and the W chromosome in particular. Evidences are presented to show that fission and inversion have played an important role in bringing about the structural rearrangements in this group. (v) Family Viperidae according to taxonomists is divided into two subfamilies. Both the subfamilies are chromosomally very similar.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Arrighi, F. E., Hsu, T. C.: Localization of heterochromatin in human chromosomes. Cytogenetics 10, 81–86 (1971).
Atkin, N. B., Mattinson, G., Beçak, W., Ohno, S.: The comparative DNA content of 19 species of placental mammals, reptiles and birds. Chromosoma (Berl.) 17, 1–10 (1965).
Beçak, W.: Constituicao cromossomica e mecanismo de determinacao do sexo em ofidios sulamericanos. I. Aspectos cariotipicos. Mem. Inst. Butantan 32, 37–78 (1965).
Beçak, W.: Constituicao cromossomica e mecanismo de determinacao do sexo em ofidios sulamericanos. II. Chromossomes sexuais e evolucao do cariotipo. Mem. Inst. Butantan. Simp. int. 33, 775–798 (1966).
Beçak, W.: Karyotypes, sex chromosomes, and chromosomal evolution in snakes, p. 53–96. In: Venomous animals and their venoms (Wolfgang Bucherl, ed.), vol. 1. New York-London: Academic Press 1968.
Beçak, W., Beçak, M. L.: Cytotaxonomy and chromosomal evolution in Serpentes. Cytogenetics 8, 247–262 (1969).
Beçak, W., Beçak, M. L., Nazareth, H. R. S.: Estudo de cromossomos de ofidios em culturas temporarias de leucocitos. Ciencia cultura 14, 210 (1962a).
Beçak, W., Beçak, M. L., Nazareth, H. R. S.: Karyotypic studies of two species of south American snakes (Boa constrictor amarali and Bothrops jararaca). Cytogenetics 1, 305–313 (1962b).
Beçak, W., Beçak, M. L., Nazareth, H. R. S.: Chromosomes of snakes in short term cultures of blood leucocytes. Amer. Naturalist 97, 253–256 (1963a).
Beçak, W., Beçak, M. L., Nazareth, H. R. S.: Karyotypic studies of south American snakes. Proc. int. Cong. Genet. (The Hague) 1, 278 (1963b).
Beçak, W., Beçak, M. L., Nazareth, H. R. S.: Evolution and sex chromosomes in serpentes. Mem. Inst. Butantan, Simp. int. 33, 151–152 (1966).
Beçak, W., Beçak, M. L., Nazareth, H. R. S., Ohno, S.: Close karyological kinship between the reptilian suborder Serpentes and the class Aves. Chromosoma (Berl.) 15, 606–617 (1964).
Bhatnagar, A. N.: Studies on the structure and behaviour of chromosomes of Oligodon arnensis Shaw (Colubridae: Ophidia). Cytologia (Tokyo) 24, 459–465 (1959).
Bhatnagar, A. N.: Studies on the structure and behaviour of chromosomes of two species of colubrid snakes (Colubridae: Ophidia). Caryologia (Firenze) 12, 349–361 (1960a).
Bhatnagar, A. N.: Chromosomes of Bungarus caeruleus Schneider (Elapidae: Ophidia). Cytologia (Tokyo) 25, 173–176 (1960b).
Bhatnagar, A. N.: Chromosome cytology of a snake Lycodon aulicus L. (Colubridae: Ophidia). Caryologia (Firenze) 14, 35–42 (1961).
Bianchi, N. O., Lima-de-Faria, A., Jaworska, H.: A technique for removing silver grains and gelatin from tritium autoradiographs of human chromosomes. Hereditas (Lund) 51, 207–211 (1964).
Bonaparte, C. L.: Specchio generale dei sistemi erpetologico ed anfibiologico. Atti sci. ital. (Milano) 6, 376–378 (1845).
Brink, J. H. van: L'expression morphologique de la digamétie chez les Sauropsides et les Monotrèmes. Chromosoma (Berl.) 10, 1–72 (1959).
Carson, H. L., Clayton, F., Stalker, H. D.: Karyotypic stability and speciation in Hawaiian Drosophila. Proc. nat. Acad. Sci. (Wash.) 57, 1280–1285 (1967).
Chu, E. H. Y., Bender, M. A.: Cytogenetics and evolution of Primates. Ann. N. Y. Acad. Sci. 102, 253–266 (1962).
Cole, C. J., Dowling, H. G.: Chromosomes of the sunbeam snake. Xenopeltis unicolor Reinwardt (Reptilia: Xenopeltidae). Herpetol. Rev. 2, 35–36 (1970).
Drets, M. E., Shaw, M. W.: Specific banding pattern of human chromosomes. Proc. nat. Acad. Sci. (Wash.) 68, 2073–2077 (1971).
Dutt, K.: Karyotype study of a fresh water snake Cerberus rhynohops (Abstr.). Proc. int. Symp. Anim. Venoms. Inst. Butantan, Sao Paulo, p. 15–16 (1966).
Dutt, K.: Chromosome variation in two populations of Xenochrophis piscator Schn. from north and south India (Serpentes, Colubridae). Cytologia (Tokyo) 35, 456–464 (1970).
Fischman, H. K., Mitra, J., Dowling, H.: Chromosome analyses of three members of the genus Elaphe (Serpentes). (Abstr.) Proc. Meet. Genet. Soc. Amer. (1968).
Gropp, A.: Cytologic mechanisms of karyotype evolution in Insectivores. In: Comparative mammalian cytogenetics (K. Benirschke, ed.). Berlin-Heidelberg-New York: Springer 1969.
Hoge, A. R.: Nota sobre Xenopeltis unicolor Reinwardt 1827: Serpentes. Mem. Inst. Butantan 30, 31–33 (1964).
Hsu, T. C., Arrighi, F. E.: Distribution of constitutive heterochromatin in Mammalian chromosomes. Chromosoma (Berl.) 34, 254–260 (1971).
Itoh, M., Sasaki, M., Makino, S.: The chromosomes of some Japanese snakes with special regard to sexual dimorphism. Jap. J. Genet. 45, 121–128 (1970).
Kobel, H. R.: Vergleich der Chromosomensätze von Vipera berus L. und Vipera aspis L. (Viperidae, Serpentes). Arch. Klaus-Stift. Vererb.-Forsch. 38, 68–75 (1963).
Kobel, H. R.: Morphometrische Karyotypanalyse einiger Schlangenarten. Genetica ('s-Gravenhage) 38, 1–31 (1967).
Levan, A., Fredga, K., Sandberg, A. A.: Nomenclature for centromeric position on chromosomes. Hereditas (Lund) 52, 201–220 (1964).
Makino, S., Momma, E.: An idiogram study of the chromosomes in some species of reptiles. Cytologia (Tokyo) 15, 96–108 (1949).
Matthey, R.: Les chromosomes de la Vipère (Vipera aspis). C. R. Soc. Phys. Genèv. 45 (1928).
Matthey, R.: Chromosomes de Reptiles, Sauriens, Ophidiens, Cheloniens. L'évolution de la formule chromosomiale chez les Sauriens. Rev. suisse Zool. 38, 117–186 (1931).
Matthey, R.: Cytogenetic mechanisms and speciation of mammals. Amer. Tissue Cult. Assoc. Meeting Miami, 1–11 (1966).
Monroe, J. E.: Chromosomes of rattlesnakes. Herpetologica 17, 217–220 (1962).
Nadler, C. F.: Chromosomes and systematics of American ground squirrels of the sub genus Spermophilus. J. Mammal. 47, 579–596 (1966).
Nadler, C. F.: Chromosomal evolution in rodents. In: Comparative mammalian cytogenetics (K. Benirschke, ed.). Berlin-Heidelberg-New York: Springer 1969.
Nakamura, K.: Preliminary notes on reptilian chromosomes. I. The chromosomes of some snakes. Proc. imp. Acad. Tokyo 3 (1927).
Nakamura, K.: On the chromosomes of a snake (Natrix tigrina). Mem. Coll. Sci. Kyoto imp. Univ. B 4, 1–8 (1928).
Nakamura, K.: Studies on reptilian chromosomes. VI. Chromosomes of some snakes. Mem. Coll. Sci. Kyoto imp. Univ. B 10, 361–402 (1935).
Olson, E. C.: Vertebrate paleozoology. New York-London-Sydney-Toronto: Wiley and Sons. Inc. 1971.
Pope, C. H.: The reptile world. London: Routledge and Kegan Poul, Ltd. 1956.
Ray-Chaudhuri, R., Sharma, T., Ray-Chaudhuri, S. P.: A comparative study of the chromosomes of birds. Chromosoma (Berl.) 26, 148–168 (1969).
Ray-Chaudhuri, S. P., Singh, L.: DNA replication pattern in sex-chromosomes of snakes. Nucleus (Calcutta) (in press, 1972).
Ray-Chaudhuri, S. P., Singh, L., Sharma, T.: Sexual dimorphism in somatic interphase nuclei of snakes. Cytogenetics 91, 410–423 (1970).
Ray-Chaudhuri, S. P., Singh, L., Sharma, T.: Evolution of sex chromosomes and formation of W. chromatin in snakes. Chromosoma (Berl.) 33, 239–251 (1971).
Romer, A. S.: Osteology of the reptiles. Chicago: Univ. Chicago Press 1956.
Singh, L.: Multiple W chromosome in a sea snake, Enhydrina schistosa Daudin. Experientia (Basel) 28, 95–97 (1972).
Singh, L., Sharma, T., Ray-Chaudhuri, S. P.: W chromosome in the Indian water snake (checkered keel back) Natrix piscator (Colubridae). Experientia (Bassl) 24, 79–80 (1968a).
Singh, L., Sharma, T., Ray-Chaudhuri, S. P.: Chromosomes and the classification of snakes of the family Boidae. Cytogenetics 7, 161–168 (1968b).
Singh, L., Sharma, T., Ray-Chaudhuri, S. P.: Chromosome numbers and sex-chromosomes in a few Indian species of amphibia and reptiles. Mammal. Chrom. Newsl. 11, 91–94 (1970a).
Singh, L., Sharma, T., Ray-Chaudhuri, S. P.: Multiple sex-chromosomes in the common Indian krait, Bungarus caeruleus Schneider. Chromosoma (Berl.) 31, 386–391 (1970b).
Smith, M. A.: Fauna of British India, vol. 3. London: Taylor and Francis 1943.
Stimson, A. F.: Liste der rezenten Amphibien und Reptilien: Boidae (Boinae and Bolyerunae and Loxoceminae and Pythoninae). Tierreich 89 (1969).
Thatcher, L. E.: Spermatogenesis of the garter snake. Science 56, 372 (1922).
Underwood, G.: A contribution to the classification of snakes. Publ. British Mus. (Natur. Hist.) 653, X, 1–179 (1967).
Wasserman, M.: Cytological studies of the repleta group of the genus Drosophila: V. The mulleri subgroup. Univ. Texas Publ. 6205, 85–117 (1962).
Werner, Y. L.: Chromosomes of primitive snakes from Israel. Bull. Res. Coun. Israel B 8, 197–198 (1959).
White, M. J. D.: Cytogenetics of speciation. J. Aust. ent. Soc. 9, 1–6 (1970).
Wurster, D. H., Benirschke, K.: Comparative cytogenetic studies in the order Carnivora. Chromosoma (Berl.) 24, 336–382 (1968).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Singh, L. Evolution of karyotypes in snakes. Chromosoma 38, 185–236 (1972). https://doi.org/10.1007/BF00326193
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00326193