A Maitra
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Featured researches published by A Maitra.
Gene | 2013
Sonika Ahlawat; Rekha Sharma; A Maitra
The present study was undertaken to explore the genetic basis of caprine prolificacy and to screen indigenous goats for prolificacy associated markers of sheep in BMPR1B, GDF9 and BMP15 genes. To detect the associated mutations and identify novel allelic variants in the candidate genes, representative samples were collected from the breeding tract of indigenous goat breeds varying in prolificacy and geographic distribution. DNA was extracted and PCR amplification was done using primers designed or available in literature for the coding DNA sequence of candidate genes. Direct sequencing was done to identify the genetic variations. Mutations in the candidate genes associated with fecundity in sheep were not detected in Indian goats. Three non-synonymous SNPs (C818T, A959C and G1189A) were identified in exon 2 of GDF9 gene out of which mutation A959C has been associated with prolificacy in exotic goats. Two novel SNPs (G735A and C808G) were observed in exon 2 of BMP15 gene.
SpringerPlus | 2013
Rekha Sharma; A Maitra; Pramod Kumar Singh; M S Tantia
India has 34 recognized breeds of cattle in addition to many more not characterized and accredited so far. It is imperative to characterize all the cattle germplasm of the country so as to have better breeding and conservation options. Thus, present study was planned for assessing genetic diversity and relationship between three local cattle populations (Gangatiri, Shahabadi and Purnea) and two established cattle breeds (Bachaur and Siri) of eastern India by using 21 FAO and ISAG recommended microsatellite markers. A total of 243 unrelated DNA samples of five cattle populations were collected from respective habitats. A total of 304 microsatellite alleles were identified with number of alleles at one locus ranging from 5 to 29. The average observed heterozygosity lie within the narrow range of 0.681 ± 0.04 in Purnea to 0.721 ± 0.03 in Siri. Mean estimates of observed and expected heterozygosity over all loci and breeds were 0.704 ± 0.02 and 0.720 ± 0.01, respectively. In the overall population, the homozygote excess (FIT) of 0.073 ± 0.02, was partly due to the homozygote excess within breeds (FIS = 0.026 ± 0.02) and to a larger extent due to genetic differentiation among breeds (FST = 0.048 ± 0.01). The genetic distance, STRUCTURE and Principal Component Analyses concluded that the Siri cattle are most distinct among the investigated cattle populations. Furthermore the analysis of genetic structure indicated that the most probable number of clusters is four. All analysis showed that a significant amount of genetic variation is maintained in local cattle populations of which Shahabadi and Purnea are distinct from the recognized breeds of the area and needs recognition as breeds.
Meta Gene | 2014
Sonika Ahlawat; Rekha Sharma; A Maitra; Manoranjan Roy; M S Tantia
New, quick, and inexpensive methods for genotyping novel caprine Fec gene polymorphisms through tetra-primer ARMS PCR were developed in the present investigation. Single nucleotide polymorphism (SNP) genotyping needs to be attempted to establish association between the identified mutations and traits of economic importance. In the current study, we have successfully genotyped three new SNPs identified in caprine fecundity genes viz. T(-242)C (BMPR1B), G1189A (GDF9) and G735A (BMP15). Tetra-primer ARMS PCR protocol was optimized and validated for these SNPs with short turn-around time and costs. The optimized techniques were tested on 158 random samples of Black Bengal goat breed. Samples with known genotypes for the described genes, previously tested in duplicate using the sequencing methods, were employed for validation of the assay. Upon validation, complete concordance was observed between the tetra-primer ARMS PCR assays and the sequencing results. These results highlight the ability of tetra-primer ARMS PCR in genotyping of mutations in Fec genes. Any associated SNP could be used to accelerate the improvement of goat reproductive traits by identifying high prolific animals at an early stage of life. Our results provide direct evidence that tetra-primer ARMS-PCR is a rapid, reliable, and cost-effective method for SNP genotyping of mutations in caprine Fec genes.
Animal Reproduction Science | 2014
A Maitra; Rekha Sharma; Sonika Ahlawat; M S Tantia; Manoranjan Roy; Ved Prakash
KiSS1 is considered to be a key mediator of molecular mechanism of reproduction (puberty and prolificacy) in mammals. Kisspeptins are a family of structurally related peptides, encoded by KiSS1 gene, with ability to regulate gonadotropin-releasing hormone and hence hypothalamic-pituitary-gonadal axis. The present study investigated the polymorphism of caprine KiSS1 gene in 9 Indian goat breeds differing in sexual precocity and prolificacy. Comparison of KiSS1 amplified sequences of indigenous goats resulted in identification of nine SNPs (intron (1) G296C, T455G, T505A, T693C, T950C and intron (2) T1125C, A2510G, C2540T, A2803G) of which four are novel. These loci were not segregating together (r(2)<0.33). Mutations existed in both, sexually precocious and late-maturing goat breeds as well as low and high prolificacy goat breeds. Three loci reported to be associated with goat litter size (G296C, G2510A and C2540T) were identified in Indian goats as well. Association between loci of KiSS1 gene and age of puberty as well as litter size was explored in Black Bengal (N=158), a sexually precocious and prolific goat breed of India by designing PCR-RFLP. None of the mutations were found to be associated with reproductive traits however, difference in litter size as well age of sexual maturity for different genotypes indicates that the study on additional data based on more number of breeds and animals would be interesting to perform. Considering the importance of the reproductive trait in small ruminants, the results extend the limited information on genetic variation of the caprine KiSS1, which might contribute toward molecular breeding to enhance productivity of goat.
BMC Genetics | 2015
Rekha Sharma; Amit Kishore; Manishi Mukesh; Sonika Ahlawat; A Maitra; Ashwni Kumar Pandey; M S Tantia
Indian Journal of Animal Sciences | 2014
Sonika Ahlawat; Rekha Sharma; A Maitra; M S Tantia; Manoranjan Roy; Sanjay Mandakmale
Gene | 2013
Rekha Sharma; Sonika Ahlawat; A Maitra; Manoranjan Roy; Sanjay Mandakmale; M S Tantia
Small Ruminant Research | 2015
Sonika Ahlawat; Rekha Sharma; A Maitra; M S Tantia
Indian Journal of Animal Sciences | 2012
Sonika Ahlawat; Rekha Sharma; A Maitra
Indian Journal of Animal Sciences | 2014
A Maitra; Rekha Sharma; Sonika Ahlawat; M S Tantia