Jitlada Camcuan
Research Assistant
+6687-434-5462
Education
Bachelor of Arts
Bachelor of Arts Program in English of Rajabhat Maha Sarakham University, Thailand2008-2012
Work Experience and Training
- November 2019 to present: work as an administrative assistant at Laboratory of Animal Cytogenetics & Comparative Genomics, Department of Genetics, Faculty of Science, Kasetsart University.
- November 2011 to February 2012: work as a trainee at Department of Khon Khan Airport.
- May 2013 - October 2018 past: work at Sriaroonvitsalepoom school Khwan Mueang Sub-District, Selaphum District, Roi Et Province.
Skills
- English : Good
- Microsoft office (Word, PowerPoint, Excel)
Publications
2021
Srikulnath, K.; Singchat, W.; Laopichienpong, N.; Ahmad, S. F.; Jehangir, M.; Subpayakom, N.; Suntronpong, A.; Jangtarwan, K.; Pongsanarm, T.; Panthum, T.; Ariyaraphong, N.; Camcuan, J.; Duengkae, P.; Dokkaew, S.; Muangmai, N.
Overview of the betta fish genome regarding species radiation, parental care, behavioral aggression, and pigmentation model relevant to humans Journal Article
In: Genes and Genomics, vol. 43, no. 2, pp. 91-104, 2021, ISSN: 19769571, (cited By 7).
@article{Srikulnath202191,
title = {Overview of the betta fish genome regarding species radiation, parental care, behavioral aggression, and pigmentation model relevant to humans},
author = {K. Srikulnath and W. Singchat and N. Laopichienpong and S. F. Ahmad and M. Jehangir and N. Subpayakom and A. Suntronpong and K. Jangtarwan and T. Pongsanarm and T. Panthum and N. Ariyaraphong and J. Camcuan and P. Duengkae and S. Dokkaew and N. Muangmai},
url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85099913076&doi=10.1007%2fs13258-020-01027-2&partnerID=40&md5=efbc01fa20db1405a1aea9b4d18960c4},
doi = {10.1007/s13258-020-01027-2},
issn = {19769571},
year = {2021},
date = {2021-01-01},
journal = {Genes and Genomics},
volume = {43},
number = {2},
pages = {91-104},
publisher = {Genetics Society of Korea},
abstract = {Background: The Siamese fighting fish (Betta splendens, also known as the betta) is well known in aquarium markets, and also presents an exciting new research model for studying parental care, aggressive behavior, and cryptically diverse pigmentation. However, concentrated efforts are required, both in the context of conservation biology and in its genetics, to address the problems of ongoing outbreeding depression, loss of biodiversity, and lack of scientific biological information. Objective: The evolutionary dynamics of the betta must be better understood at the genomic scale in order to resolve the phylogenetic status of unrecognized species, develop molecular markers to study variation in traits, and identify interesting sets of genes encoding various bioresource functions. Methods: The recent revolution in multi-omics approaches such as genomics, transcriptomics, epigenomics, and proteomics has uncovered genetic diversity and gained insights into many aspects of betta bioresources. Results: Here, we present current research and future plans in an ongoing megaproject to characterize the betta genome as de novo assemblies, genes and repeat annotations, generating data to study diverse biological phenomena. We highlight key questions that require answers and propose new directions and recommendations to develop bioresource management to protect and enhance the betta genus. Conclusion: Successful accomplishment of these plans will allow the creation of a reference annotated genome and provide valuable information at the molecular level that can be utilized to sustain biodiversity and eco-management of the betta to improve breeding programs for future biomedical research. © 2021, The Genetics Society of Korea.},
note = {cited By 7},
keywords = {},
pubstate = {published},
tppubtype = {article}
}
Background: The Siamese fighting fish (Betta splendens, also known as the betta) is well known in aquarium markets, and also presents an exciting new research model for studying parental care, aggressive behavior, and cryptically diverse pigmentation. However, concentrated efforts are required, both in the context of conservation biology and in its genetics, to address the problems of ongoing outbreeding depression, loss of biodiversity, and lack of scientific biological information. Objective: The evolutionary dynamics of the betta must be better understood at the genomic scale in order to resolve the phylogenetic status of unrecognized species, develop molecular markers to study variation in traits, and identify interesting sets of genes encoding various bioresource functions. Methods: The recent revolution in multi-omics approaches such as genomics, transcriptomics, epigenomics, and proteomics has uncovered genetic diversity and gained insights into many aspects of betta bioresources. Results: Here, we present current research and future plans in an ongoing megaproject to characterize the betta genome as de novo assemblies, genes and repeat annotations, generating data to study diverse biological phenomena. We highlight key questions that require answers and propose new directions and recommendations to develop bioresource management to protect and enhance the betta genus. Conclusion: Successful accomplishment of these plans will allow the creation of a reference annotated genome and provide valuable information at the molecular level that can be utilized to sustain biodiversity and eco-management of the betta to improve breeding programs for future biomedical research. © 2021, The Genetics Society of Korea.