Allele frequency distribution at 15 autosomal STR loci in Panggi, Komkar and Padam sub tribes of Adi, a Tibeto-Burman speaking population of Arunachal Pradesh, India.

Fifteen autosomal STR loci were analyzed in 223 healthy individuals belonging to three remote, isolated Tibeto-Burman speaking sub tribes namely, Panggi, Komkar and Padam of Adi tribe of Arunachal Pradesh, India. The analyzed markers exhibited a high degree of polymorphism in the studied populations. Statistical parameters of forensic interest; observed heterozygosity, probability of homozygosity, exact test, likelihood ratio test, power of discrimination, power of exclusion, match probability and typical paternity index were determined for all loci. The average heterozygosity values were found to be low in the three populations (Panggi: 0.7747; Komkar: 0.7742 and Padam: 0.7663). The combined power of discrimination and power of exclusion were 0.9999 in the studied populations thereby revealing the high forensic significance of the chosen markers. The study indicates the utility of the tested microsatellite markers in forensic human identification, paternity testing and human population genetic studies.

Allele frequencies of 20 Y-chromosomal short tandem repeat loci in a tribal population of Deccan Plateau, India.

POPULATION: Eighty male individuals from a nomadic tribal population belonging to Dravidian and Indo-Caucasian ethnicities from Deccan Plateau, Andhra Pradesh, India, were analyzed in the present study.

Deletions in the Y-derived amelogenin gene fragment in the Indian population.

BACKGROUND: Rare failures in amelogenin-based gender typing of individuals have been observed globally. In this study, we report the deletion of a large fragment of the amelogenin gene in 10 individuals out of 4,257 male samples analyzed from 104 different endogamous populations of India. METHODS: Samples were analyzed using commercial genetic profiling kits. Those that exhibited failures in amelogenin-based gender identification were further analyzed with published as well as newly designed primers to ascertain the nature and extent of mutation. RESULTS: The failure rate among Indian males was 0.23 %. Though the exact size and nature of the deletion (single point mutations at a number of positions or a single large deletion) could not be determined in the present study, it is inferred that the deletion spans a region downstream of the reverse primer-binding site of commercially available amelogenin primer sets. Deletions were conspicuously absent among the Mongoloid tribes of Northeast India, while both caste and tribal groups harbored these mutations, which was predominantly among the Y-chromosomes belonging to J2 lineage. CONCLUSION: Our study indicates that the different amelogenin primer sets currently included in genetic profiling multiplex kits may result in erroneous interpretations due to mutations undetectable during routine testing. Further there are indications that these mutations could possibly be lineage-specific, inherited deletions.

Genetic structure of Indian populations based on fifteen autosomal microsatellite loci.

BACKGROUND: Indian populations endowed with unparalleled genetic complexity have received a great deal of attention from scientists world over. However, the fundamental question over their ancestry, whether they are all genetically similar or do exhibit differences attributable to ethnicity, language, geography or socio-cultural affiliation is still unresolved. In order to decipher their underlying genetic structure, we undertook a study on 3522 individuals belonging to 54 endogamous Indian populations representing all major ethnic, linguistic and geographic groups and assessed the genetic variation using autosomal microsatellite markers. RESULTS: The distribution of the most frequent allele was uniform across populations, revealing an underlying genetic similarity. Patterns of allele distribution suggestive of ethnic or geographic propinquity were discernible only in a few of the populations and was not applicable to the entire dataset while a number of the populations exhibited distinct identities evident from the occurrence of unique alleles in them. Genetic substructuring was detected among populations originating from northeastern and southern India reflective of their migrational histories and genetic isolation respectively. CONCLUSION: Our analyses based on autosomal microsatellite markers detected no evidence of general clustering of population groups based on ethnic, linguistic, geographic or socio-cultural affiliations. The existence of substructuring in populations from northeastern and southern India has notable implications for population genetic studies and forensic databases where broad grouping of populations based on such affiliations are frequently employed.

Molecular identification of lizard by RAPD & FINS of mitochondrial 16s rRNA gene.

In the present study, we identified the structure-less skeleton suspected to be of house lizard present in jaggery, consumption of which caused mass food poisoning using, RAPD (Random Amplification of Polymorphic DNA) with random primers and FINS (Forensically Informative Nucleotide Sequencing) with mitochondrial 16s rRNA gene. The NJ tree dendogram based on distance calculated from RAPD bands clearly identified the structure-less as Calotes versicolor (Garden Lizard). In FINS analysis of the mitochondrial 16s rRNA gene the NJ tree based on Kimura-2-parameter distance matrices clearly reveal that the unknown sample clustered with Agmidae family and closest to Calotes versicolor (Garden Lizard) with 100% bootstrap support, whereas all other species belong to Gekkonida family form a single distinct cluster including Hemidactylus fluviviridis (House Lizard). This is the first successful typing of mitochondrial 16s rRNA with FINS approach to identify the biological origin of a structure-less skeleton. Our analysis also sustained successful identification of unknown samples using RAPD method with optimized conditions in a laboratory setup with low resources.

Polymorphisms at fifteen tetrameric short tandem repeat loci in three ethnic populations of Bengal, India.

The study presents allele frequency data at 15 tetrameric short tandem repeat (STR) loci (D3S1358, THO1, D21S11, D18S51, D5S818, D13S317, D7S820, D16S539, CSF1PO, vWA, D8S1179, TPOX, D2S1338, D19S433 and FGA) in three ethnic populations--Mahishya, Bauri and Namasudra of Bengal to evaluate their utility in Forensic testing and understanding population structure and dynamics. A total of 169 individuals were studied from the selected populations. On an average the combined power of discrimination and power of exclusion in these groups was found 0.97 and 0.99, respectively. The allele distribution pattern shows possible genetic admixture between these ethnic groups which could be attributed to their close geographical proximity and occupying almost similar position in the social hierarchy. This study suggests that the 13 Combined DNA Index System (CODIS) markers and two added markers named D2S1338, D19S433 are highly informative and therefore suitable in matching biological specimen in human identification and population genetic study.

Genetic polymorphism at 15 tetrameric short tandem repeat loci in four aboriginal tribal populations of Bengal.

POPULATIONS: This study reports the genetic polymorphism observed at 15 short tandem repeat loci D3S1358, TH01, D21S11, D18S51, D5S818, D13S317, D7S820, D16S539, CSF1PO, vWA, D8S1179, TPOX, D2S1338, D19S433, and FGA in four aboriginal populations of Bengal. The analysis was performed to decipher the suitability of CODIS as well as six other highly polymorphic and unlinked markers in Forensic Testing. Studied populations include four tribes: Karmali, Kora, Maheli, and Lodha.

Phylogeny and antiquity of M macrohaplogroup inferred from complete mt DNA sequence of Indian specific lineages.

BACKGROUND: Analysis of human complete mitochondrial DNA sequences has largely contributed to resolve phylogenies and antiquity of different lineages belonging to the majorhaplogroups L, N and M (East-Asian lineages). In the absence of whole mtDNA sequence information of M lineages reported in India that exhibits highest diversity within the sub-continent, the present study was undertaken to provide a detailed analysis of this macrohaplogroup to precisely characterize and unravel the intricate phylogeny of the lineages and to establish the antiquity of M lineages in India. RESULTS: The phylogenetic tree constructed from sequencing information of twenty-four whole mtDNA genome revealed novel substitutions in the previously defined M2a and M6 lineages. The most striking feature of this phylogenetic tree is the recognition of two new lineages, M30 and M31, distinguished by transitions at 12007 and 5319, respectively. M30 comprises of M18 and identifies a potential new sub-lineage possessing substitution at 16223 and 16300. It further branches into M30a sub-lineage, defined by 15431 and 195A substitution. The age of M30 lineage was estimated at 33,042 YBP, indicating a more recent expansion time than M2 (49,686 YBP). The M31 branch encompasses the M6 lineage along with the previously defined M3 and M4 lineages. Contradictory to earlier reports, the M5 lineage does not always include a 12477 substitution, and is more appropriately defined by a transversion at 10986A. The phylogenetic tree also identifies a potential new lineage in the M* branch with HVSI sequence as 16223,16325. Substitutions in M25 were in concordance with previous reports. CONCLUSION: This study describes five new basal mutations and recognizes two new lineages, M30 and M31 that substantially contribute to the present understanding of macrohaplogroup M. These two newly erected lineages include the previously independent lineages M18 and M6 as sub-lineages within them, respectively, suggesting that most mt DNA genomes might arise as limited offshoots of M trunk. Furthermore, this study supports the non existence of lineages such as M3 and M4 that are solely defined on the basis of fast mutating control region motifs and hence, establishes the importance of coding region markers for an accurate understanding of the phylogeny. The deep roots of M phylogeny clearly establish the antiquity of Indian lineages, especially M2, as compared to Ethiopian M1 lineage and hence, support an Asian origin of M majorhaplogroup.

Development of novel heminested PCR assays based on mitochondrial 16s rRNA gene for identification of seven pecora species.

BACKGROUND: Characterization of molecular markers and the development of better assays for precise and rapid detection of wildlife species are always in demand. This study describes a set of seven novel heminested PCR assays using specific primers designed based on species-specific polymorphism at the mitochondrial 16S rRNA gene for identification of Blackbuck, Goral, Nilgai, Hog deer, Chital, Sambar and Thamin deer. RESULTS: The designed heminested PCR assays are two consecutive amplifications of the mitochondrial 16S rRNA gene. In the first stage, approximately 550 bp region of the 16S rRNA gene was amplified by PCR using template DNA and universal primers. In the second stage, a species-specific internal region of the 16S rRNA gene was amplified by PCR using the amplicon of the first PCR along with one universal primer and another species-specific primer as the reverse or forward primer. The amplicon generated after two consecutive amplifications was highly unique to target species. These assays were successfully validated for sensitivity, specificity, and ruggedness under a wide range of conditions. CONCLUSION: The validation experiments confirm that the designed heminested PCR assays for identification of the seven species are highly specific, sensitive, reliable and provide a reproducible method allowing analysis of low copy number DNA recovered from decomposed or highly processed tissues. The assays for identification of other species could be devised by extrapolating the principle of designed heminested PCR.

Influence of language and ancestry on genetic structure of contiguous populations: a microsatellite based study on populations of Orissa.

BACKGROUND: We have examined genetic diversity at fifteen autosomal microsatellite loci in seven predominant populations of Orissa to decipher whether populations inhabiting the same geographic region can be differentiated on the basis of language or ancestry. The studied populations have diverse historical accounts of their origin, belong to two major ethnic groups and different linguistic families. Caucasoid caste populations are speakers of Indo-European language and comprise Brahmins, Khandayat, Karan and Gope, while the three Australoid tribal populations include two Austric speakers: Juang and Saora and a Dravidian speaking population, Paroja. These divergent groups provide a varied substratum for understanding variation of genetic patterns in a geographical area resulting from differential admixture between migrants groups and aboriginals, and the influence of this admixture on population stratification. RESULTS: The allele distribution pattern showed uniformity in the studied groups with approximately 81% genetic variability within populations. The coefficient of gene differentiation was found to be significantly higher in tribes (0.014) than caste groups (0.004). Genetic variance between the groups was 0.34% in both ethnic and linguistic clusters and statistically significant only in the ethnic apportionment. Although the populations were genetically close (FST = 0.010), the contemporary caste and tribal groups formed distinct clusters in both Principal-Component plot and Neighbor-Joining tree. In the phylogenetic tree, the Orissa Brahmins showed close affinity to populations of North India, while Khandayat and Gope clustered with the tribal groups, suggesting a possibility of their origin from indigenous people. CONCLUSIONS: The extent of genetic differentiation in the contemporary caste and tribal groups of Orissa is highly significant and constitutes two distinct genetic clusters. Based on our observations, we suggest that since genetic distances and coefficient of gene differentiation were fairly small, the studied populations are indeed genetically similar and that the genetic structure of populations in a geographical region is primarily influenced by their ancestry and not by socio-cultural hierarchy or language. The scenario of genetic structure, however, might be different for other regions of the subcontinent where populations have more similar ethnic and linguistic backgrounds and there might be variations in the patterns of genomic and socio-cultural affinities in different geographical regions.

Host microsatellite alleles in malaria predisposition?

BACKGROUND: Malaria is a serious, sometimes fatal, disease caused by Plasmodium infection of human red blood cells. The host-parasite co-evolutionary processes are well understood by the association of coding variations such as G6PD, Duffy blood group receptor, HLA, and beta-globin gene variants with malaria resistance. The profound genetic diversity in host is attributed to polymorphic microsatellites loci. The microsatellite alleles in bacterial species are known to have aided their survival in fatal environmental conditions. The fascinating question is whether microsatellites are genomic cushion in the human genome to combat disease stress and has cause-effect relationships with infections. PRESENTATION OF THE HYPOTHESIS: It is hypothesized that repeat units or alleles of microsatellites TH01 and D5S818, located in close proximity to beta-globin gene and immune regulatory region in human play a role in malaria predisposition. Association of alleles at aforesaid microsatellites with malaria infection was analysed. To overrule the false association in unrecognized population stratification, structure analysis and AMOVA were performed among the sampled groups. TESTING OF HYPOTHESIS: Associations of microsatellite alleles with malaria infection were verified using recombination rate, Chi-square, and powerful likelihood tests. Further investigation of population genetic structure, and AMOVA was done to rule out the confounding effects of population stratification in interpretation of association studies. IMPLICATION OF THE HYPOTHESIS: Lower recombination rate (theta) between microsatellites and genes implicated in host fitness; positive association between alleles-13 (D5S818), 9 (TH01) and strong susceptibility to Plasmodium falciparum; and alleles-12 (D5S818) and 6 (TH01) rendering resistance to human host were evident. The interesting fact emerging from the study was that while predisposition to malaria was a prehistoric attribute, among TH01 alleles; evolution of resistant allele-6 was a recent phenomenon, which could conceivably be driven by infection related selective forces. The host's microsatellite allelic associations with malaria infection were valid in the light of low genetic variance between sampled groups and no population stratification.

Mitochondrial DNA control region sequence polymorphism in four indigenous tribes of Chotanagpur plateau, India.

The analysis of genetic variation, in the nucleotide sequences of mitochondrial DNA, provides unique information in tracing of maternal lineage, determination of population diversity, pharmacogenomics and human identification. This study characterizes the HVR-I and II sequence polymorphism in 80 tribal individuals, belonging to the Austro-Asiatic linguistic family of Chotanagpur plateau, India. A total of 115 polymorphic sites were observed in the sequenced regions and 77 unique haplotypes could be identified.

Genetic diversity at 15 microsatellite loci among the Adi Pasi population of Adi tribal cluster in Arunachal Pradesh, India.

Genetic polymorphisms at 15 tetrameric short tandem repeat (STR) loci were studied in 203 healthy individuals of Adi Pasi population from Arunachal Pradesh, India. All the loci analyzed were highly polymorphic and there was no significant deviation from the Hardy-Weinberg equilibrium (HWE) excepting D8S1179 and D18S51. Other forensic useful statistical parameters were also calculated and the 15 microsatellite markers selected for this study were found to be suitable for human identification and population genetic studies.

Genotypic polymorphisms at seventeen autosomal short tandem repeat loci in four tribal populations of Andhra Pradesh, India.

Four tribal populations of Andhra Pradesh, South India (1), Chenchu (n=100), Lambadi (n=107), Naikpod Gond (n=104) and Yerukula (n=101) were analyzed for DNA polymorphisms at 15 tetranucleotide and 2 pentanucleotide short tandem repeat (STR) loci in the present study.

Genetic structure of four socio-culturally diversified caste populations of southwest India and their affinity with related Indian and global groups.

BACKGROUND: A large number of microsatellites have been extensively used to comprehend the genetic diversity of different global groups. This paper entails polymorphism at 15 STR in four predominant and endogamous populations representing Karnataka, located on the southwest coast of India. The populations residing in this region are believed to have received gene flow from south Indian populations and world migrants, hence, we carried out a detailed study on populations inhabiting this region to understand their genetic structure, diversity related to geography and linguistic affiliation and relatedness to other Indian and global migrant populations. RESULTS: Various statistical analyses were performed on the microsatellite data to accomplish the objectives of the paper. The heretozygosity was moderately high and similar across the loci, with low average GST value. Iyengar and Lyngayat were placed above the regression line in the R-matrix analysis as opposed to the Gowda and Muslim. AMOVA indicated that majority of variation was confined to individuals within a population, with geographic grouping demonstrating lesser genetic differentiation as compared to linguistic clustering. DA distances show the genetic affinity among the southern populations, with Iyengar, Lyngayat and Vanniyar displaying some affinity with northern Brahmins and global migrant groups from East Asia and Europe. CONCLUSION: The microsatellite study divulges a common ancestry for the four diverse populations of Karnataka, with the overall genetic differentiation among them being largely confined to intra-population variation. The practice of consanguineous marriages might have attributed to the relatively lower gene flow displayed by Gowda and Muslim as compared to Iyengar and Lyngayat. The various statistical analyses strongly suggest that the studied populations could not be differentiated on the basis of caste or spatial location, although, linguistic affinity was reflected among the southern populations, distinguishing them from the northern groups. Our study also indicates a heterogeneous origin for Lyngayat and Iyengar owing to their genetic proximity with southern populations and northern Brahmins. The high-ranking communities, in particular, Iyengar, Lyngayat, Vanniyar and northern Brahmins might have experienced genetic admixture from East Asian and European ethnic groups.

Detection of the source of mislabeled biopsy tissue paraffin block and histopathological section on glass slide.

The aim of this study was to identify the source of surgical biopsy tissue in paraffin block and histochemically stained biopsy section on a slide suspected to be mislabeled. Commercially available polymerase chain reaction (PCR)-based human lymphocyte antigen (HLA) DQA1 and Polymarker kits (Roche Molecular Systems, Branchburg, NJ, U.S.A.). were used to generate DNA profiles from biopsy tissue material in paraffin block and on histological slide, and the reference blood sample was collected from the patient. The source of biopsy tissue was detected by HLA DQA1 and polymarker profiling. Profiles obtained from biopsy material were consistent with those obtained from reference blood sample. The PCR-based DNA profiling techniques can determine the source of minute tissue in paraffin block and stained tissue sections on slides routinely prepared for diagnosis of carcinoma.

Polymorphism at fifteen hypervariable microsatellite loci in four populations of Maharashtra, India.

Polymorphism at 15 microsatellite loci was studied in four predominant, endogamous populations of Maharashtra state in India. The studied population included Marathas, Desasth Brahmins, Chitpavan Brahmins and Dhangars; all of whom belong to Marathi speaking linguistic group of India. The distribution of the allele pattern at 13 tetranucleotide repeat and two pentanucleotide repeat of Powerplex 16 System portrays that these markers are highly polymorphic and thus, informative in human identification and understanding diversity in the addressed populations.

Genetic variation at 15 autosomal microsatellite loci in the three highly endogamous tribal populations of Orissa, India.

Although microsatellite diversity in autosomal chromosomes has been extensively described for many of the Indian populations, there is still a lacuna left on information about the genetic diversity of tribal populations. This paper reports the genetic data on the three tribal populations belonging to the Austroloid ethnic group from Orissa (Juang, Paroja and Saora). The 15 STR (D3S1358, THO1, D21S11, D18S51, PentaE, D5S818, D13S317, D7S820, D16S539, CSF1PO, PentaD, vWA, D8S1179, TPOX, FGA) polymorphism would help to accentuate the STR database for better understanding of population genetics and forensic applications. The microsatellites included in the system are found to be highly polymorphic, with the combined power of exclusion being greater than 0.999, in all the three investigated populations.

Genetic polymorphism at 15 STR loci among three important subpopulation of Bihar, India.

Genotype polymorphism studies at 15 highly polymorphic short tandem repeat (STR) loci were carried out in three genetically important minor caste groups (Yadav, Kurmi and Baniya) of Bihar, a eastern state of India to evaluate their significance in human identification and population genetics study. The selected communities practice endogamy. Despite of same geographical area, the physical features of Yadavs and Baniyas resemble North Indian Indo-Caucasoids whereas Kurmis resemble more to Indo-Austroloids. Among the chosen 15 loci, two are penta-nucleotide repeat: Penta-D and Penta-E, and 13 are tetra-nucleotide repeat: vWA D8S1179, TPOX, FGA, D5S818, D13S317, D7S820, D16S539, D3S1358, THO1, CSF1PO, D21S11, D18S51 and are validated for other population of India and world for forensic testing and human population study. Thirteen of these STR loci are present in the combined DNA index system (CODIS) [J. Forensic Sci. 44 (1999) 1277] and world-wide data is available.

Genetic diversity in four tribal groups of western India: a survey of polymorphism in 15 STR loci and their application in human identification.

Genetic diversity at 15 STR loci: 2 pentanucleotide and 13 tetranucleotide STR loci was determined in four highly endogamous tribal groups, viz. Madia-Gond, Mahadeo-Koli, Katkari and Pawara of western India. The distribution of genotypes at studied 15 loci was found in agreement with expected values according to Hardy-Weinberg equilibrium. The combined power of discrimination of 15 loci was calculated as 0.80 while combined power of exclusion was observed as 0.53 among the studied four tribal groups. The study demonstrate very low heterozygosity and low power of exclusion of the loci of Powerplex 16 among the selected groups indicating less informativeness of the studied markers in human identification testing.