Chandramouleeswaran Naganathan scite author profile

The Public Cord Blood Bank of Jeevan Stem Cell Foundation was established in 2008 to harvest cord blood units and make them available to treat multiple blood disorders through Hematopoietic Stem Cell Transplants. We studied Human Leucocyte Antigen (HLA)-A, -B, -C, -DRB1 and -DQB1 allele and haplotype diversity in a sample of 2491 unrelated cord-blood units from Jeevan's Public Cord Blood Bank (part of Be The Cure Registry) in the Tamil Nadu state in the Indian Peninsula.

Next Generation Sequencing in HLA haplotype distribution among Telugu speaking population from Andhra Pradesh, India

Manisekar²,

SathishKannan³

et al. 2018

Human Immunology

Malayalam speaking population from South India: Common five‐locus haplotypes in Malayalam speaking population

Manisekar²,

SathishKannan³

et al. 2018

HLA

A total of 356 (217 bone marrow and 139 cord blood donors) Malayalam Speaking individuals (Keralites or Malayalis (Here not to be confused with Malayali tribes of Eastern ghats from South India)) from Kerala, Tamilnadu, Karnataka and Telangana were typed for HLA-A, -B, -C, -DRB and -DQB alleles. Out of 356 samples, 253 samples were typed by Sanger sequencing using SeCore Sequencing IVD® kit user protocol (Invitrogen) and the results detected on an automated ABI 3730xl DNA analyzer instrument. This article is protected by copyright. All rights reserved.

Application of high‐throughput next‐generation sequencing for HLA typing of DNA extracted from postprocessing cord blood units

Venugopal²,

Kannan³

et al. 2019

HLA

Cord blood has become an acceptable source of hematopoietic stem cells for transplantation. HLA plays a major role in hematopoietic stem cell transplantation (HSCT). Typing of cord blood samples for HLA alleles has been performed based on the serological and molecular methods. However, with the advent of nextgeneration sequencing technology, HLA typing becomes more accurate and unambiguous (upto intron level). Contamination of cord blood cells with erythropoietic cells poses a challenge in DNA extraction and downstream application. In the present study, DNA extracted from buffy coat of cord blood samples was typed for HLA-A, -B, -C, DRB1, and DQB1 alleles by Illumina miniseq and the sequences were aligned, phased, and mapped by MIA FORA software algorithms. Most frequent alleles found were HLA Afield resolution) HLA typing can be performed on cord blood samples. In order to preserve the precious sample for future use, minimal amount of cord blood samples (postprocessing) could be used for HLA typing purpose. K E Y W O R D S cord blood units, high-throughput typing, HLA typing, NGS

Molecular analysis of HLA Class I and Class II genes in five different South Indian linguistic groups

SathishKannan²,

Naganathan³

et al. 2021

HLA

South Indians are a heterogeneous population who speak different languages and differ in their life style and physical appearance. Major population movements, social structure and caste endogamy have influenced the genetic structure of Indian populations. The human leukocyte antigen (HLA) system of populations is highly informative because of the high level of polymorphisms. Knowledge of allele and haplotype frequencies of the HLA system is important in the search for unrelated bone marrow donors. We investigated the distribution of HLA A, B, C, DRB1 and DQB1 loci in five linguistic groups from South India. HLA–A*01:01:01~B*57:01:01:01~C*06:02:01~DRB1*07:01:01~DQB1*03:03:02 was the common haplotype with highest frequency in all the five populations studied. A few relevant haplotypes were identified as most common haplotypes in each linguistic group. Comparison of HLA‐A, ‐B and ‐DRB1 allele distribution in these five linguistic groups with the other Asian population showed that the South Indian populations were closely related to Sri Lankan populations. A large South Indian donor registry might serve as good source of donors for patients from Sri Lanka and vice versa.