ดนัย จัตวา
ผู้ช่วยศาสตราจารย์
ภาควิชาสัตวบาล คณะเกษตร บางเขน
danai.ja@ku.ac.th
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EDUCATION
- ปร.ด. สัตวศาสตร์, มหาวิทยาลัยเกษตรศาสตร์, ไทย, 0000
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Scopus
h-index
h-index: 8
| # | Document title | Authors | Year | Source | Cited by |
|---|---|---|---|---|---|
| 1 | Imputation accuracy from low to moderate density single nucleotide polymorphism chips in a Thai multibreed dairy cattle population | Jattawa D., Elzo M., Elzo M., Koonawootrittriron S., Suwanasopee T. | 2016 | Asian-Australasian Journal of Animal Sciences, 29(4), pp. 464-470 | 19 |
| 2 | Comparison of genetic evaluations for milk yield and fat yield using a polygenic model and three genomic-polygenic models with different sets of SNP genotypes in Thai multibreed dairy cattle | Jattawa D., Elzo M., Koonawootrittriron S., Suwanasopee T. | 2015 | Livestock Science, 181, pp. 58-64 | 13 |
| 3 | Pathway enrichment and protein interaction network analysis for milk yield, fat yield and age at first calving in a Thai multibreed dairy population | Laodim T., Elzo M., Koonawootrittriron S., Suwanasopee T., Jattawa D. | 2019 | Asian-Australasian Journal of Animal Sciences, 32(4), pp. 508-518 | 12 |
| 4 | Genomic-polygenic and polygenic predictions for milk yield, fat yield, and age at first calving in Thai multibreed dairy population using genic and functional sets of genotypes | Laodim T., Elzo M.A., Koonawootrittriron S., Suwanasopee T., Jattawa D. | 2019 | Livestock Science, 219, pp. 17-24 | 11 |
| 5 | Somatic cells count and its genetic association with milk yield in dairy cattle raised under thai tropical environmental conditions | Jattawa D., Koonawootrittriron S., Elzo M., Suwanasopee T. | 2012 | Asian-Australasian Journal of Animal Sciences, 25(9), pp. 1216-1222 | 10 |
| 6 | Characterization of biological pathways associated with semen traits in the Thai multibreed dairy population | Sarakul M., Elzo M., Koonawootrittriron S., Suwanasopee T., Jattawa D., Laodim T. | 2018 | Animal Reproduction Science, 197, pp. 324-334 | 9 |
| 7 | Genetic parameters, predictions, and rankings for semen production traits in a Thailand multi-breed dairy population using genomic-polygenic and polygenic models | Sarakul M., Elzo M., Koonawootrittriron S., Suwanasopee T., Jattawa D. | 2018 | Animal Reproduction Science, 195, pp. 71-79 | 8 |
| 8 | High-level gene flow restricts genetic differentiation in dairy cattle populations in thailand: Insights from large-scale mt d-loop sequencing | Ariyaraphong N., Laopichienpong N., Singchat W., Panthum T., Ahmad S.F., Jattawa D., Duengkae P., Muangmai N., Suwanasopee T., Koonawootrittriron S., Srikulnath K., Srikulnath K. | 2021 | Animals, 11(6), 1680 | 8 |
| 9 | Genomic-polygenic and polygenic evaluations for milk yield and fat percentage using random regression models with Legendre polynomials in a Thai multibreed dairy population | Jattawa D., Elzo M., Koonawootrittriron S., Suwanasopee T. | 2016 | Livestock Science, 188, pp. 133-141 | 7 |
| 10 | Identification of SNP markers associated with milk and fat yields in multibreed dairy cattle using two genetic group structures | Laodim T., Elzo M., Koonawootrittriron S., Suwanasopee T., Jattawa D. | 2017 | Livestock Science, 206, pp. 95-104 | 7 |
| 11 | Accuracy of genomic-polygenic estimated breeding value for milk yield and fat yield in the Thai multibreed dairy population with five single nucleotide polymorphism sets | Wongpom B., Koonawootrittriron S., Elzo M., Suwanasopee T., Jattawa D. | 2019 | Asian-Australasian Journal of Animal Sciences, 32(9), pp. 1340-1348 | 6 |
| 12 | Genetic factors influencing milk and fat yields in tropically adapted dairy cattle: insights from quantitative trait loci analysis and gene associations | Laodim T., Laodim T., Koonawootrittriron S., Elzo M.A., Elzo M.A., Suwanasopee T., Jattawa D., Sarakul M., Sarakul M. | 2024 | Animal Bioscience, 37(4), pp. 576-590 | 5 |
| 13 | Dynamic and structural properties of porcine serum albumins | Niramitranon J., Japrung D., Boonmee A., Koonawootrittriron S., Suwanasopee T., Jattawa D., Pongprayoon P. | 2023 | Molecular Simulation | 3 |
| 14 | Binding Modes of Carnostatine, Homocarnosine, and Ophidine to Human Carnosinase 1 | Toviwek B., Suwanasopee T., Koonawootrittriron S., Jattawa D., Pongprayoon P. | 2023 | ACS Omega | 3 |
| 15 | Muscle fiber characteristics and expression level of Troponin T3, Toll-like receptor 2, and Toll-like receptor 4 genes in chicken meat with white striping | Boonlaos A., Uddin M.J., Temyord K., Jattawa D., Kayan A. | 2023 | Veterinary World, 16(7), pp. 1415-1420 | 2 |
| 16 | UI/UX-centric Design of In-the-Field Agricultural Data Acquisition System | Songsupakit K., Phisanbut N., Watanapongse P., Piamsa-Nga P., Koonawootrittriron S., Suwanasopee T., Jattawa D. | 2019 | ICSEC 2019 - 23rd International Computer Science and Engineering Conference, pp. 390-393, 8974767 | 2 |
| 17 | Challenges facing the development of a genetic improvement program for dairy cattle in Myanmar | Hlaing K.S., Hlaing K.S., Koonawootrittriron S., Suwanasopee T., Jattawa D., Elzo M.A. | 2020 | Agriculture and Natural Resources, 54(6), pp. 681-686 | 1 |
| 18 | Genomic-polygenic evaluations using random regression models with Legendre polynomials and linear splines for milk yield and fat percentage in the Thai multibreed dairy cattle population | Jattawa D., Elzo M.A., Koonawootrittriron S., Suwanasopee T. | 2021 | Livestock Science, 251, 104619 | 1 |
| 19 | Comparative studies of structure and dynamics of caprine, leporine, ovine, and equine serum albumins | Pongprayoon P., Kuntip N., Suwanasopee T., Jattawa D., Niramitranon J., Japrung D., Koonawootrittriron S. | 2023 | Journal of Biomolecular Structure and Dynamics | 0 |
| 20 | A comparison of five sets of overlapping and non-overlapping sliding windows for semen production traits in the Thai multibreed dairy population | Sarakul M., Elzo M.A., Koonawootrittriron S., Suwanasopee T., Jattawa D., Laodim T. | 2024 | Animal Bioscience, 37(3), pp. 428-436 | 0 |
| 21 | Patterns of variation and relationships among fat, protein, and milk yield of individual dairy cattle in a Thai multibreed population | Korket T., Koonawootrittriron S., Suwanasopee T., Jattawa D. | 2024 | Tropical animal health and production, 56(8), pp. 324, 324 | 0 |
| 22 | Why Bestatin Prefers Human Carnosinase 2 (CN2) to Human Carnosinase 1 (CN1) | Toviwek B., Koonawootrittriron S., Suwanasopee T., Jattawa D., Pongprayoon P. | 2024 | Journal of Physical Chemistry B | 0 |
| 23 | Inclusion of imputed genotypes from non-genotyped dairy cattle in a Thai multibreed genomic-polygenic evaluation | Jattawa D., Suwanasopee T., Elzo M.A., Elzo M.A., Koonawootrittriron S. | 2025 | Animal Bioscience, 38(3), pp. 419-430 | 0 |
| 24 | Assessment of soluble protein and collagen characteristics of dry-aged beef from Angus ? Thai native and Charolais ? Thai native crossbred steers | Saleepochn T., Chavanasilp P., Kanram P., Kityakarn S., Pantu P., Pongprayoon P., Suwanasopee T., Jattawa D., Luksirikul P., Koonawootrittriron S. | 2024 | Agriculture and Natural Resources, 58(6) | 0 |