Seven tribal (Konda Kammara – 2 samples; Koya Dora – 3 samples; Lambadi) and caste (Madiga) populations from Andhra Pradesh (South India) have been analyzed for the distribution of Gc subtypes. The observed heterogeneity in the distribution of Gc1F, Gc1S and Gc2 alleles was found to be statistically significant. Comparisons are made with North Indian populations as well as with those of other racial affiliation. The anthropological impact of the Gc subtype polymorphism is discussed.
Serum samples from a total of 862 unrelated individuals belonging to seven Hindu endogamous caste groups residing in Hyderabad and Warangal cities of Andhra Pradesh were examined for electrophoretic variation of transferrin (Tf). In four caste groups, namely, Brahmin, Vysya, Padmashali, and Kapu, the Mongoloid genetic marker DChi was found, with polymorphic frequencies in Brahmin and Vysya groups. The two new D variants found in individuals of Madiga and Mudiraj castes were designated as DMadiga and DMudiraj. Similarly, two new B variants found in individuals of Goldsmith and Madiga castes were designated as BGoldsmith and BMadiga, respectively. These findings suggest a widespread transferrin variation in caste groups of Andhra Pradesh and in the tribal populations of this region.
Gene diversity and genetic structure of tribal populations of Andhra Pradesh, India, have been analyzed under a hierarchical model consisting of five regions of the state, tribes within the regions, and local subpopulations within the tribes. Average gene diversity has been estimated from gene frequency data for 15 polymorphic loci by using nested gene diversity analysis of GST. The intralocation coefficient of gene diversity was estimated at 96% of the total, whereas the intertribal, within--and between--regional gene diversities were found to be only 1.90, 0.95, and 1.43%, respectively. The estimate of gene diversity was higher for loci with higher degrees of polymorphism such as ABO, MN, ESD, and PTC and lower for loci with low-level polymorphism and extreme gene frequencies such as Hb, Tf, PHI, 6PGD, and Hp. The nature of selective preference or neutrality at the loci seems to be important in this respect. Tribes of the plains exhibit the least gene diversity, apparently because of higher gene flow among them. The contribution of loci with intermediate gene frequencies in intertribal and regional gene diversity was found to be higher than for loci with extreme allelic frequencies. These results suggest that the most significant component of variation is between individuals within locations and that variation between local subpopulations is negligible in the genetic structure of a population. Forces like selection, gene flow and drift also influence the diversity depending upon the nature of the locus.
The genetic structure of three subpopulations of the Naikpod tribe of Andhra Pradesh, India, was examined by studying three blood group, six red cell enzyme, and five protein systems and phenylthiocarbamide taste sensitivity. The gene frequency data of 15 loci are compared among the subpopulations as well as with those reported for other population groups from India. The analysis of gene diversity revealed that the gene differentiation among the subpopulations relative to total population is only 0.02, indicating that the genetic differentiation between subpopulations is very small compared with that within them. This is corroborated by the small genetic distances found among them. The effect of differentiation of microgeographical and breeding isolation on gene diversity and genetic differentiation among the three subpopulations is apparently low.
Five tribal populations, Koya Dora, Raj Gond, Naikpod, Pardhan, and Lambadi from Andhra Pradesh were examined for Tf, Hp, Gc, ceruloplasmin and albumin types. Koya Doras were sampled at five localities to study intra-tribal variation. Tf Dchi, a mongoloid genetic marker, was found in high frequencies among Koya Doras (0.029) and Naikpods (0.033) whereas it was absent among Pardhans and showed a very low frequency in Lambadis. A new slow transferrin allele, Tf DGond, is reported from Raj Gonds and is found in polymorphic frequency (0.01). The Hp1 gene frequency ranged from 0.056 to 0.159, and Gc2ranged from 0.165 to 0.397. No variation was observed with respect to ceruloplasmin. One new albumin variant was found in a single individual of the Koya Dora tribe. The intra-tribal variation in gene frequencies among Koya Doras equalled that found between different tribal populations.
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