| Title | Author | Year | SCOPUS | PUBMED | ISI | TCI | |
|---|---|---|---|---|---|---|---|
| 1. | VITRIFICATION OF THAI NATIVE CATTLE OOCYTES: EFFECTS OF ETHYLENE GLYCOL CONCENTRATIONS AND EXPOSURE TIME, LINOLEIC ACID ALBUMIN AND CHOLESTEROL-LOADED METHYL-B-CYCLODEXTRIN. | Chasombat, J Vongpralub, T Sirisathien, S Phasuk, Y Sonseeda, P |
0 | ||||
| 2. | Detection of bovine leukocyte antigen DRB3 alleles as candidate markers for clinical mastitis resistance in Holstein x Zebu | M. Duangjinda D. Buayai V. Pattarajinda Y. Phasuk S. Katawatin T. Vongpralub A. Chaiyotvittayakul |
2009 | ||||
| 3. | Study of genetic diversity of Thai native buffaloes using mitochondrial DNA marker | Kamonpun Chauckwon Monchai Duangjinda Yupin Phasuk Virote Pattarajinda Sarayut Wonnasuit Kitti Koobkaew |
2010 | ||||
| 4. | Genetic characterization of Thai indigenous chickens compared with commercial lines | Nedup Dorji Monchai Daungjinda Yupin Phasuk |
2011 | ||||
| 5. | Genetic characterization of Bhutanese native chickens based on an analysis of Red Junglefowl (Gallus gallus gallus and Gallus gallus spadecieus), domestic Southeast Asian and commercial chicken lines (Gallus gallus domesticus). | Dorji, N. Duangjinda, M. Phasuk, Y. |
2012 | ||||
| 6. | Genetic characterization of Red Junglefowl (Gallus gallus), Thai indigenous chicken (Gallus domesticus), and two commercial lines using selective functional genes compared to microsatellite markers. | P. Akaboot M. Duangjinda Y. Phasuk C. Kaenchan W. Chinchiyanond |
2012 | ||||
| 7. | Insulin-like growth factor I gene polymorphism associated with growth and carcass traits in Thai synthetic chickens. | N. Promwatee B. Laopaiboon T. Vongpralub Y. Phasuk S. Kunhareang W. Boonkum M. Duangjinda |
2013 | ||||
| 8. | MC1R, KIT, IGF2, and NR6A1 as markers for genetic differentiation in Thai native, wild boars, and Duroc and Chinese Meishan pigs | Klomtong, P Chaweewan, K Phasuk, Y Duangjinda, M |
2015 | ||||
| 9. | VITRIFICATION OF THAI NATIVE CATTLE OOCYTES: EFFECTS OF ETHYLENE GLYCOL CONCENTRATIONS AND EXPOSURE TIME, LINOLEIC ACID ALBUMIN AND CHOLESTEROL-LOADED METHYL-B-CYCLODEXTRIN | Jakkhaphan Chasombat Thevin Vongpralub Saksiri Sirisathien Yupin Phasuk Pronjit Sonseeda |
2015 | ||||
| 10. | Animal Species Identification through High Resolution Melting Real Time PCR (HRM) of the Mitochondrial 16S RRNA Gene | Pitchayanipa Klomtong Yupin Phasuk Monchai Duangjinda |
2016 | ||||
| 11. | Comparison of sperm freezability and fertility among Hmong Black-Bone, Barred Plymouth Rock and Thai Native (Pradu Hang Dam) chickens | Saennamphung Somtaw Pornjit Sonseeda Nalinee Tubtimtong Yupin Phasuk Thevin Vongpralub |
2018 | ||||
| 12. | Isolation and screening of aflatoxin-detoxifying yeast and bacteria from ruminal fluids to reduce aflatoxin B-1 contamination in dairy cattle feed | M. Intanoo M. B. Kongkeitkajorn V. Pattarajinda J. K. Bernard T. R. Callaway W. Suriyasathaporn Y. Phasuk |
2018 | ||||
| 13. | Isolation and screening of aflatoxin-detoxifying yeast and bacteria from ruminal fluids to reduce aflatoxin B |
Boonmee, M. Pattarajinda, V. Phasuk, Y. |
2018 | ||||
| 14. | Sucrose increases the quality and fertilizing ability of cryopreserved chicken sperms in contrast to raffinose. | Pachara Thananurak Napapach Chuaychu-noo Aurore Thelie Yupin Phasuk Thevin Vongpralub Elisabeth Blesbois |
2019 | ||||
| 15. | Comparison of TNC and standard extender on post-thaw quality and in vivo fertility of Thai native chicken sperm | Thananurak, P Chuaychu-Noo, N Phasuk, Y Vongpralub, T |
2020 | ||||
| 16. | Different concentrations of cysteamine, ergothioneine, and serine modulate quality and fertilizing ability of cryopreserved chicken sperm. | Pachara Thananurak Napapach Chuaychu-noo Aurore Thelie Yupin Phasuk Thevin Vongpralub Elisabeth Blesbois |
2020 | ||||
| 17. | Effect of Supplemental Kluyveromyces marxianus and Pichia kudriavzevii on Aflatoxin M-1 Excretion in Milk of Lactating Dairy Cows | Malinee Intanoo Mallika B. Kongkeitkajorn Witaya Suriyasathaporn Yupin Phasuk John K. Bernard Virote Pattarajinda |
2020 | ||||
| 18. | Effect of supplemental Kluyveromyces marxianus and Pichia kudriavzevii on aflatoxin M |
Phasuk, Y. Pattarajinda, V. |
2020 | ||||
| 19. | Carnosine Content and Its Association with Carnosine-Related Gene Expression in Breast Meat of Thai Native and Black-Bone Chicken | Khumpeerawat, P. Duangjinda, M. Phasuk, Y. |
2021 | ||||
| 20. | Droplet digital polymerase chain reaction assay for identifying and quantifying pork products | Ampaporn, K Phasuk, Y Duangjinda, M |
2021 | ||||
| 21. | Effects of Cyclic Thermal Stress at Later Age on Production Performance and Meat Quality of Fast-Growing, Medium-Growing and Thai Native Chickens | Phasuk, Y. Kunhareang, S. |
2021 | ||||
| 22. | Factors affecting gene expression associated with the skin color of black-bone chicken in Thailand | Khumpeerawat, P Duangjinda, M Phasuk, Y |
2021 | ||||
| 23. | Gene expression of fatty acid binding protein genes and its relationship with fat deposition of Thai native crossbreed chickens | Supanon Tunim Yupin Phasuk Samuel E. Aggrey Monchai Duangjinda |
2021 | ||||
| 24. | Increasing fat deposition via upregulates the transcription of peroxisome proliferator-activated receptor gamma in native crossbred chickens | Supanon Tunim Yupin Phasuk Samuel E. Aggrey Monchai Duangjinda |
2021 | ||||
| 25. | Transforming growth factor beta1 in porcine seminal plasma on characteristic of sperm and reproductive efficiency in sows | Vongpralub, T. Phasuk, Y. |
2021 | ||||
| 26. | Influences of Thermal Stress During Three Weeks Before Market Age on Histology and Expression of Genes Associated With Adipose Infiltration and Inflammation in Commercial Broilers, Native Chickens, and Crossbreeds | Malila, Y Sanpinit, P Thongda, W Jandamook, A Srimarut, Y Phasuk, Y Kunhareang, S |
2022 | ||||
| 27. | Microencapsulation of lemongrass and mangosteen peel as phytogenic compounds to gas kinetics, fermentation, degradability, methane production, and microbial population using in vitro gas technique | Prachumchai, R Suriyapha, C Dagaew, G Sommai, S Matra, M Phupaboon, S Phasuk, Y Wanapat, M |
2024 | ||||
| 28. | TLR4, BTN1A1, and Pit-1 polymorphisms and their associations with the estimated breeding values of growth traits of Brahman cattle in Thailand | Pancharoen, J. Chockcharoen, S. Phasuk, Y. Boonkum, W. Duangjinda, M. |
2024 | Count | 22 | 15 | 20 | 1 |
| Title | Authors | Year | Publication name | Cited count | ||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| < 2020 | 2021 | 2022 | 2023 | 2024 | 2025 | Total | ||||||
| 1. | Detection of bovine leukocyte antigen DRB3 alleles as candidate markers for clinical mastitis resistance in Holstein x Zebu | Duangjinda, M. Buayai, D. Pattarajinda, V. Phasuk, Y. Katawatin, S. Vongpralub, T. Chaiyotvittayakul, A. |
2009 |
Journal of Animal Science 2 (87), pp. 469-476 |
||||||||
| 2. | Genetic characterization of Thai indigenous chickens compared with commercial lines | Dorji, N. Duangjinda, M. Phasuk, Y. |
2011 |
Tropical Animal Health and Production 4 (43), pp. 779-785 |
||||||||
| 3. | Genetic characterization of Bhutanese native chickens based on an analysis of Red Junglefowl (Gallus gallus gallus and Gallus gallus spadecieus), domestic Southeast Asian and commercial chicken lines (Gallus gallus domesticus) | Dorji, N. Duangjinda, M. Phasuk, Y. |
2012 |
Genetics and Molecular Biology 3 (35), pp. 603-609 |
||||||||
| 4. | Genetic characterization of Red Junglefowl (Gallus gallus), Thai indigenous chicken (Gallus domesticus), and two commercial lines using selective functional genes compared to microsatellite markers. | Akaboot, P. Duangjinda, M. Phasuk, Y. |
2012 |
Genetics and molecular research : GMR 3 (11), pp. 1881-1890 |
||||||||
| 5. | Insulin-like growth factor I gene polymorphism associated with growth and carcass traits in Thai synthetic chickens | Promwatee, N. Laopaiboon, B. Vongpralub, T. Phasuk, Y. Kunhareang, S. Boonkum, W. Duangjinda, M. |
2013 |
Genetics and Molecular Research 4 (12), pp. 4332-4341 |
||||||||
| 6. | MC1R, KIT, IGF2, and NR6A1 as markers for genetic differentiation in Thai native, wild boars, and Duroc and Chinese Meishan pigs | Phasuk, Y. Duangjinda, M. |
2015 |
Genetics and Molecular Research 4 (14), pp. 12723-12732 |
||||||||
| 7. | Animal Species Identification through High Resolution Melting Real Time PCR (HRM) of the Mitochondrial 16S RRNA Gene | Phasuk, Y. Duangjinda, M. |
2016 |
Annals of Animal Science 2 (16), pp. 415-424 |
||||||||
| 8. | Isolation and screening of aflatoxin-detoxifying yeast and bacteria from ruminal fluids to reduce aflatoxin B<inf>1</inf> contamination in dairy cattle feed | Boonmee, M. Pattarajinda, V. Phasuk, Y. |
2018 |
Journal of Applied Microbiology 6 (125), pp. 1603-1613 |
||||||||
| 9. | Sucrose increases the quality and fertilizing ability of cryopreserved chicken sperms in contrast to raffinose | Phasuk, Y. Vongpralub, T. |
2019 |
Poultry Science 9 (98), pp. 4161-4171 |
||||||||
| 10. | Comparison of TNC and standard extender on post-thaw quality and in vivo fertility of Thai native chicken sperm | Phasuk, Y. Vongpralub, T. |
2020 |
Cryobiology (92), pp. 197-202 |
||||||||
| 11. | Different concentrations of cysteamine, ergothioneine, and serine modulate quality and fertilizing ability of cryopreserved chicken sperm | Phasuk, Y. Vongpralub, T. |
2020 |
Poultry Science 2 (99), pp. 1185-1198 |
||||||||
| 12. | Effect of supplemental Kluyveromyces marxianus and Pichia kudriavzevii on aflatoxin M<inf>1</inf> excretion in milk of lactating dairy cows | Phasuk, Y. Pattarajinda, V. |
2020 |
Animals 4 (10), pp. |
||||||||
| 13. | Carnosine content and its association with carnosine-related gene expression in breast meat of thai native and black-bone chicken | Khumpeerawat, P. Duangjinda, M. Phasuk, Y. |
2021 |
Animals 7 (11), pp. |
||||||||
| 14. | Droplet digital polymerase chain reaction assay for identifying and quantifying pork products | Phasuk, Y. Duangjinda, M. |
2021 |
Animal Science Journal 1 (92), pp. |
||||||||
| 15. | Effects of cyclic thermal stress at later age on production performance and meat quality of fast-growing, medium-growing and thai native chickens | Phasuk, Y. Kunhareang, S. |
2021 |
Animals 12 (11), pp. |
||||||||
| 16. | Factors affecting gene expression associated with the skin color of black-bone chicken in Thailand | Khumpeerawat, P. Duangjinda, M. Phasuk, Y. |
2021 |
Poultry Science 11 (100), pp. |
||||||||
| 17. | Gene expression of fatty acid binding protein genes and its relationship with fat deposition of Thai native crossbreed chickens | Phasuk, Y. Duangjinda, M. |
2021 |
Animal Bioscience 4 (34), pp. 751-758 |
||||||||
| 18. | Increasing fat deposition via upregulates the transcription of peroxisome proliferator-activated receptor gamma in native crossbred chickens | Phasuk, Y. Duangjinda, M. |
2021 |
Animals 1 (11), pp. 1-9 |
||||||||
| 19. | Transforming growth factor beta1 in porcine seminal plasma on characteristic of sperm and reproductive efficiency in sows | Vongpralub, T. Phasuk, Y. |
2021 |
Science and Technology Asia 1 (26), pp. 216-223 |
||||||||
| 20. | Influences of Thermal Stress During Three Weeks Before Market Age on Histology and Expression of Genes Associated With Adipose Infiltration and Inflammation in Commercial Broilers, Native Chickens, and Crossbreeds | Phasuk, Y. Kunhareang, S. |
2022 |
Frontiers in Physiology (13), pp. |
||||||||
| 21. | Microencapsulation of lemongrass and mangosteen peel as phytogenic compounds to gas kinetics, fermentation, degradability, methane production, and microbial population using in vitro gas technique | Prachumchai, R. Suriyapha, C. Dagaew, G. Sommai, S. Matra, M. Phupaboon, S. Phasuk, Y. Wanapat, M. |
2024 |
PLoS ONE 6 June (19), pp. |
||||||||
| 22. | TLR4, BTN1A1, and Pit-1 polymorphisms and their associations with the estimated breeding values of growth traits of Brahman cattle in Thailand | Pancharoen, J. Chockcharoen, S. Phasuk, Y. Boonkum, W. Duangjinda, M. |
2024 |
Asia-Pacific Journal of Science and Technology 1 (29), pp. |
||||||||
| Title | Authors | Year | Journal title | ||
|---|---|---|---|---|---|
| 1. | Detection of bovine leukocyte antigen DRB3 alleles as candidate markers for clinical mastitis resistance in Holstein x Zebu. | Duangjinda, M Buayai, D Pattarajinda, V Phasuk, Y Katawatin, S Vongpralub, T Chaiyotvittayakul, A |
2009 |
Journal of animal science 2 (87), pp. 469-76 |
|
| 2. | Genetic characterization of Thai indigenous chickens compared with commercial lines. | Dorji, N Daungjinda, M Phasuk, Y |
2011 |
Tropical animal health and production 4 (43), pp. 779-85 |
|
| 3. | Genetic characterization of Bhutanese native chickens based on an analysis of Red Junglefowl (Gallus gallus gallus and Gallus gallus spadecieus), domestic Southeast Asian and commercial chicken lines (Gallus gallus domesticus). | Dorji, N Duangjinda, M Phasuk, Y |
2012 |
Genetics and molecular biology 3 (35), pp. 603-9 |
|
| 4. | Genetic characterization of Red Junglefowl (Gallus gallus), Thai indigenous chicken (Gallus domesticus), and two commercial lines using selective functional genes compared to microsatellite markers. | Akaboot, P Duangjinda, M Phasuk, Y Kaenchan, C Chinchiyanond, W |
2012 |
Genetics and molecular research : GMR 3 (11), pp. 1881-90 |
|
| 5. | Insulin-like growth factor I gene polymorphism associated with growth and carcass traits in Thai synthetic chickens. | Promwatee, N Laopaiboon, B Vongpralub, T Phasuk, Y Kunhareang, S Boonkum, W Duangjinda, M |
2013 |
Genetics and molecular research : GMR 4 (12), pp. 4332-41 |
|
| 6. | MC1R, KIT, IGF2, and NR6A1 as markers for genetic differentiation in Thai native, wild boars, and Duroc and Chinese Meishan pigs. | Klomtong, P Chaweewan, K Phasuk, Y Duangjinda, M |
2015 |
Genetics and molecular research : GMR 4 (14), pp. 12723-32 |
|
| 7. | Sucrose increases the quality and fertilizing ability of cryopreserved chicken sperms in contrast to raffinose. | Thananurak, P Chuaychu-Noo, N Thélie, A Phasuk, Y Vongpralub, T Blesbois, E |
2019 |
Poultry science 9 (98), pp. 4161-4171 |
|
| 8. | Different concentrations of cysteamine, ergothioneine, and serine modulate quality and fertilizing ability of cryopreserved chicken sperm. | Thananurak, P Chuaychu-Noo, N Thélie, A Phasuk, Y Vongpralub, T Blesbois, E |
2020 |
Poultry science 2 (99), pp. 1185-1198 |
|
| 9. | Comparison of TNC and standard extender on post-thaw quality and in vivo fertility of Thai native chicken sperm. | Thananurak, P Chuaychu-Noo, N Phasuk, Y Vongpralub, T |
2020 |
Cryobiology (92), pp. 197-202 |
|
| 10. | Droplet digital polymerase chain reaction assay for identifying and quantifying pork products. | Ampaporn, K Phasuk, Y Duangjinda, M |
2021 |
Animal science journal = Nihon chikusan Gakkaiho 1 (92), pp. e13595 |
|
| 11. | Factors affecting gene expression associated with the skin color of black-bone chicken in Thailand. | Khumpeerawat, P Duangjinda, M Phasuk, Y |
2021 |
Poultry science 11 (100), pp. 101440 |
|
| 12. | Gene expression of fatty acid binding protein genes and its relationship with fat deposition of Thai native crossbreed chickens. | Tunim, S Phasuk, Y Aggrey, SE Duangjinda, M |
2021 |
Animal bioscience 4 (34), pp. 751-758 |
|
| 13. | Influences of Thermal Stress During Three Weeks Before Market Age on Histology and Expression of Genes Associated With Adipose Infiltration and Inflammation in Commercial Broilers, Native Chickens, and Crossbreeds. | Malila, Y Sanpinit, P Thongda, W Jandamook, A Srimarut, Y Phasuk, Y Kunhareang, S |
2022 |
Frontiers in physiology (13), pp. 858735 |
|
| 14. | Microencapsulation of lemongrass and mangosteen peel as phytogenic compounds to gas kinetics, fermentation, degradability, methane production, and microbial population using in vitro gas technique. | Prachumchai, R Suriyapha, C Dagaew, G Sommai, S Matra, M Phupaboon, S Phasuk, Y Wanapat, M |
2024 |
PloS one 6 (19), pp. e0304282 |
|
| 15. | VITRIFICATION OF THAI NATIVE CATTLE OOCYTES: EFFECTS OF ETHYLENE GLYCOL CONCENTRATIONS AND EXPOSURE TIME, LINOLEIC ACID ALBUMIN AND CHOLESTEROL-LOADED METHYL-B-CYCLODEXTRIN. | Chasombat, J Vongpralub, T Sirisathien, S Phasuk, Y Sonseeda, P |
Cryo letters 3 (36), pp. 165-73 |
| Title | Authors | Year | Journal title | Cited count | ||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| < 2020 | 2021 | 2022 | 2023 | 2024 | 2025 | Total | ||||||
| 1. | Detection of bovine leukocyte antigen DRB3 alleles as candidate markers for clinical mastitis resistance in Holstein x Zebu | M. Duangjinda D. Buayai V. Pattarajinda Y. Phasuk S. Katawatin T. Vongpralub A. Chaiyotvittayakul |
2009 |
JOURNAL OF ANIMAL SCIENCE 2.0 (87.0), pp. 469.0-476.0 |
21 | 0 | 0 | 0 | 0 | 0 | 21 | |
| 2. | Genetic characterization of Thai indigenous chickens compared with commercial lines | Nedup Dorji Monchai Daungjinda Yupin Phasuk |
2011 |
TROPICAL ANIMAL HEALTH AND PRODUCTION 4.0 (43.0), pp. 779.0-785.0 |
15 | 0 | 0 | 0 | 0 | 0 | 15 | |
| 3. | Genetic characterization of Bhutanese native chickens based on an analysis of Red Junglefowl (Gallus gallus gallus and Gallus gallus spadecieus), domestic Southeast Asian and commercial chicken lines (Gallus gallus domesticus) | Nedup Dorji Monchai Duangjinda Yupin Phasuk |
2012 |
GENETICS AND MOLECULAR BIOLOGY 3.0 (35.0), pp. 603.0-609.0 |
12 | 0 | 0 | 0 | 0 | 0 | 12 | |
| 4. | Genetic characterization of Red Junglefowl (Gallus gallus), Thai indigenous chicken (Gallus domesticus), and two commercial lines using selective functional genes compared to microsatellite markers | P. Akaboot M. Duangjinda Y. Phasuk C. Kaenchan W. Chinchiyanond |
2012 |
GENETICS AND MOLECULAR RESEARCH 3.0 (11.0), pp. 1881.0-1890.0 |
8 | 0 | 0 | 0 | 0 | 0 | 8 | |
| 5. | Insulin-like growth factor I gene polymorphism associated with growth and carcass traits in Thai synthetic chickens | N. Promwatee B. Laopaiboon T. Vongpralub Y. Phasuk S. Kunhareang W. Boonkum M. Duangjinda |
2013 |
GENETICS AND MOLECULAR RESEARCH 4.0 (12.0), pp. 4332.0-4341.0 |
2 | 0 | 0 | 0 | 0 | 0 | 2 | |
| 6. | MC1R, KIT, IGF2, and NR6A1 as markers for genetic differentiation in Thai native, wild boars, and Duroc and Chinese Meishan pigs | P. Klomtong K. Chaweewan Y. Phasuk M. Duangjinda |
2015 |
GENETICS AND MOLECULAR RESEARCH 4.0 (14.0), pp. 12723.0-12732.0 |
4 | 0 | 0 | 0 | 0 | 0 | 4 | |
| 7. | VITRIFICATION OF THAI NATIVE CATTLE OOCYTES: EFFECTS OF ETHYLENE GLYCOL CONCENTRATIONS AND EXPOSURE TIME, LINOLEIC ACID ALBUMIN AND CHOLESTEROL-LOADED METHYL-B-CYCLODEXTRIN | Jakkhaphan Chasombat Thevin Vongpralub Saksiri Sirisathien Yupin Phasuk Pronjit Sonseeda |
2015 |
CRYOLETTERS 3.0 (36.0), pp. 165.0-173.0 |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| 8. | ANIMAL SPECIES IDENTIFICATION THROUGH HIGH RESOLUTION MELTING REAL TIME PCR (HRM) OF THE MITOCHONDRIAL 16S RRNA GENE | Pitchayanipa Klomtong Yupin Phasuk Monchai Duangjinda |
2016 |
ANNALS OF ANIMAL SCIENCE 2.0 (16.0), pp. 415.0-424.0 |
4 | 0 | 0 | 0 | 0 | 0 | 4 | |
| 9. | Comparison of sperm freezability and fertility among Hmong Black-Bone, Barred Plymouth Rock and Thai Native (Pradu Hang Dam) chickens | Saennamphung Somtaw Pornjit Sonseeda Nalinee Tubtimtong Yupin Phasuk Thevin Vongpralub |
2018 |
THAI JOURNAL OF VETERINARY MEDICINE 4.0 (48.0), pp. 595.0-602.0 |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| 10. | Isolation and screening of aflatoxin-detoxifying yeast and bacteria from ruminal fluids to reduce aflatoxin B-1 contamination in dairy cattle feed | M. Intanoo M. B. Kongkeitkajorn V. Pattarajinda J. K. Bernard T. R. Callaway W. Suriyasathaporn Y. Phasuk |
2018 |
JOURNAL OF APPLIED MICROBIOLOGY 6.0 (125.0), pp. 1603.0-1613.0 |
12 | 0 | 0 | 0 | 0 | 0 | 12 | |
| 11. | Sucrose increases the quality and fertilizing ability of cryopreserved chicken sperms in contrast to raffinose | Pachara Thananurak Napapach Chuaychu-noo Aurore Thelie Yupin Phasuk Thevin Vongpralub Elisabeth Blesbois |
2019 |
POULTRY SCIENCE 9.0 (98.0), pp. 4161.0-4171.0 |
18 | 0 | 0 | 0 | 0 | 0 | 18 | |
| 12. | Comparison of TNC and standard extender on post-thaw quality and in vivo fertility of Thai native chicken sperm | Pachara Thananurak Napapach Chuaychu-noo Yupin Phasuk Thevin Vongpralub |
2020 |
CRYOBIOLOGY (92.0), pp. 197.0-202.0 |
2 | 0 | 0 | 0 | 0 | 0 | 2 | |
| 13. | Different concentrations of cysteamine, ergothioneine, and serine modulate quality and fertilizing ability of cryopreserved chicken sperm | Pachara Thananurak Napapach Chuaychu-noo Aurore Thelie Yupin Phasuk Thevin Vongpralub Elisabeth Blesbois |
2020 |
POULTRY SCIENCE 2.0 (99.0), pp. 1185.0-1198.0 |
9 | 0 | 0 | 0 | 0 | 0 | 9 | |
| 14. | Effect of Supplemental Kluyveromyces marxianus and Pichia kudriavzevii on Aflatoxin M-1 Excretion in Milk of Lactating Dairy Cows | Malinee Intanoo Mallika B. Kongkeitkajorn Witaya Suriyasathaporn Yupin Phasuk John K. Bernard Virote Pattarajinda |
2020 |
ANIMALS 4.0 (10.0), pp. |
4 | 0 | 0 | 0 | 0 | 0 | 4 | |
| 15. | Carnosine Content and Its Association with Carnosine-Related Gene Expression in Breast Meat of Thai Native and Black-Bone Chicken | Panuwat Khumpeerawat Monchai Duangjinda Yupin Phasuk |
2021 |
ANIMALS 7.0 (11.0), pp. |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| 16. | Droplet digital polymerase chain reaction assay for identifying and quantifying pork products | Kessara Ampaporn Yupin Phasuk Monchai Duangjinda |
2021 |
ANIMAL SCIENCE JOURNAL 1.0 (92.0), pp. |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| 17. | Effects of Cyclic Thermal Stress at Later Age on Production Performance and Meat Quality of Fast-Growing, Medium-Growing and Thai Native Chickens | Yuwares Malila Anuwat Jandamuk Thanawan Uopasai Thongsa Buasook Yanee Srimarut Pornnicha Sanpinit Yupin Phasuk Sajee Kunhareang |
2021 |
ANIMALS 12.0 (11.0), pp. |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| 18. | Factors affecting gene expression associated with the skin color of black-bone chicken in Thailand | Panuwat Khumpeerawat Monchai Duangjinda Yupin Phasuk |
2021 |
POULTRY SCIENCE 11.0 (100.0), pp. |
0 | 0 | 0 | 0 | 0 | 0 | 0 | |
| 19. | Gene expression of fatty acid binding protein genes and its relationship with fat deposition of Thai native crossbreed chickens | Supanon Tunim Yupin Phasuk Samuel E. Aggrey Monchai Duangjinda |
2021 |
ANIMAL BIOSCIENCE 4.0 (34.0), pp. 751.0-758.0 |
3 | 0 | 0 | 0 | 0 | 0 | 3 | |
| 20. | Increasing Fat Deposition Via Upregulates the Transcription of Peroxisome Proliferator-Activated Receptor Gamma in Native Crossbred Chickens | Supanon Tunim Yupin Phasuk Samuel E. Aggrey Monchai Duangjinda |
2021 |
ANIMALS 1.0 (11.0), pp. |
1 | 0 | 0 | 0 | 0 | 0 | 1 | |
| Title | Authors | Year | Journal title | ||
|---|---|---|---|---|---|
| 1. | Study of genetic diversity of Thai native buffaloes using mitochondrial DNA marker | Kamonpun Chauckwon Monchai Duangjinda Yupin Phasuk Virote Pattarajinda Sarayut Wonnasuit Kitti Koobkaew |
2010 |
Genomics and Genetics (3 No 2), pp. 149-159 |
| Title | Authors | NRIIS type | Year | NRIIS Scholarship | ||
|---|---|---|---|---|---|---|
| 1. | การประยุกต์ใช้เครือข่ายไร้สายระบบตรวจวัดสำหรับการเฝ้าระวังการเปลี่ยนแปลงของสิ่งแวดล้อมสำหรับการเลี้ยงไก่เนื้อในระบบอีแวปแบบอัตโนมัติผ่านโทรศัพท์เคลื่อนที่ |
รศ.ดร. จักรชัย โสอินทร์ส ผศ.ดร. ยุพิน ผาสุข นางสาวณัฐณิชา วีระมงคลเลิศ |
โครงการ | 2557 | ทุนงบประมาณแผ่นดินประจำปี 2557 | |
| 2. | การศึกษาการแสดงของยีนที่เกี่ยวข้องกับการเกิดความเครียดเนื่องจากความร้อนในโคนมสายพันธุ์ทนร้อน |
ผศ.ดร. สจี กัณหาเรียง ผศ.ดร. ยุพิน ผาสุข นางสุภร กตเวทิน ศ.ดร. มนต์ชัย ดวงจินดา |
โครงการย่อย ภายใต้ชุดโครงการวิจัย | 2557 | ทุนงบประมาณแผ่นดินประจำปี 2557 | |
| 3. | การค้นหาเครื่องหมายดีเอ็นเอที่จำเพาะต่อลักษณะความสมบูรณ์พันธุ์ในโคนมเพศเมียที่ให้ผลผลิตน้ำนมสูง |
นางสาวศรีนวล คุณานิตย์ ผศ.ดร.สพ.ญ.ดร. วิบัณฑิตา จันทร์กิติสกุล ผศ.ดร. สจี กัณหาเรียง ผศ.ดร. ยุพิน ผาสุข |
โครงการย่อย ภายใต้ชุดโครงการวิจัย | 2558 | ทุนงบประมาณแผ่นดินประจำปี 2558 | |
| 4. | ความผันแปรทางพันธุกรรมของยีน เบต้า เคลซิน เอ 2 ที่สัมพันธ์กับโปรตีนนมและองค์ประกอบน้ำนมในโคนมทนร้อน |
ผศ.ดร. สจี กัณหาเรียง ผศ.ดร. ยุพิน ผาสุข นางสุภร กตเวทิน ศ.ดร. มนต์ชัย ดวงจินดา |
โครงการย่อย ภายใต้ชุดโครงการวิจัย | 2558 | ทุนงบประมาณแผ่นดินประจำปี 2558 | |
| 5. | ความสัมพันธ์ระหว่าง Single nucleotide polymorphism (SNP) ของยีน leptin, leptin receptor genes และยีน ATP6V1B2 ต่อลักษณะความสมบูรณ์พันธุ์ในโคนมเพศเมียที่ให้ผลผลิตน้ำนมสูงและปรับตัวได้ดีในเขตร้อน |
นางสาวศรีนวล คุณานิตย์ ผศ.ดร. สจี กัณหาเรียง ผศ.ดร. ยุพิน ผาสุข ผศ.ดร.สพ.ญ.ดร. วิบัณฑิตา จันทร์กิติสกุล |
โครงการย่อย ภายใต้ชุดโครงการวิจัย | 2559 | ทุนงบประมาณแผ่นดินประจำปี 2559 (เป้าหมาย2) |