ประกิจ สมท่า
รองศาสตราจารย์
ภาควิชาพืชไร่นา คณะเกษตร กำแพงแสน วิทยาเขตกำแพงแสน
agrpks@ku.ac.th
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- ปร.ด.(ปรับปรุงพันธุ์พืช), มหาวิทยาลัยเกษตรศาสตร์, ไทย, 2548
- วท.บ.(พืชไร่นา ), มหาวิทยาลัยเกษตรศาสตร์, ไทย, 2543
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พันธุกรรม และพันธุศาสตร์พืชตระกูลถั่วเขียวและพืชอื่นๆ ในสกุล Vigna รวมทั้งถั่วเหลือง, การปรับปรุงพันธุ์พืชโดยการใช้วิธีมาตรฐาน และเครื่องหมายโมเลกุล, พืชไร่นา
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h-index: 34
| # | Document title | Authors | Year | Source | Cited by |
|---|---|---|---|---|---|
| 1 | Genome sequence of mungbean and insights into evolution within Vigna species | Kang Y.J., Kim S.K., Kim M.Y., Lestari P., Lestari P., Kim K.H., Ha B.K., Jun T.H., Hwang W.J., Lee T., Lee J., Shim S., Yoon M.Y., Jang Y.E., Han K.S., Taeprayoon P., Yoon N., Somta P., Tanya P., Kim K.S., Gwag J.G., Moon J.K., Lee Y.H., Park B.S., Bombarely A., Doyle J.J., Jackson S.A., Schafleitner R., Srinives P., Varshney R.K., Lee S.H., Lee S.H. | 2014 | Nature Communications, 5, 5443 | 436 |
| 2 | Construction of a genetic linkage map and genetic analysis of domestication related traits in Mungbean (Vigna radiata) | Isemura T., Kaga A., Tabata S., Somta P., Srinives P., Shimizu T., Jo U., Vaughan D., Tomooka N. | 2012 | PLoS ONE, 7(8), e41304 | 149 |
| 3 | Characterization of microsatellites and gene contents from genome shotgun sequences of mungbean (Vigna radiata (L.) Wilczek) | Tangphatsornruang S., Somta P., Uthaipaisanwong P., Chanprasert J., Sangsrakru D., Seehalak W., Sommanas W., Tragoonrung S., Srinives P. | 2009 | BMC Plant Biology, 9, 137 | 139 |
| 4 | Inheritance of seed resistance to bruchids in cultivated mungbean (Vigna radiata, L. Wilczek) | Somta P., Ammaranan C., Ooi P.A.C., Srinives P. | 2007 | Euphytica, 155(1-2), pp. 47-55 | 89 |
| 5 | The genetics of domestication of yardlong bean, Vigna unguiculata (L.) Walp. ssp. unguiculata cv.-gr. sesquipedalis | Kongjaimun A., Kaga A., Tomooka N., Somta P., Vaughan D., Srinives P. | 2012 | Annals of Botany, 109(6), pp. 1185-1200 | 85 |
| 6 | Quantitative trait loci mapping of Cercospora leaf spot resistance in mungbean, Vigna radiata (L.) Wilczek | Chankaew S., Somta P., Sorajjapinun W., Srinives P. | 2011 | Molecular Breeding, 28(2), pp. 255-264 | 81 |
| 7 | Development, characterization and cross-species amplification of mungbean (Vigna radiata) genic microsatellite markers | Somta P., Seehalak W., Srinives P. | 2009 | Conservation Genetics, 10(6), pp. 1939-1943 | 79 |
| 8 | Novel genetic resources in the genus vigna unveiled from gene bank accessions | Takahashi Y., Somta P., Muto C., Iseki K., Naito K., Pandiyan M., Natesan S., Tomooka N. | 2016 | PLoS ONE, 11(1), e0147568 | 76 |
| 9 | Development of an interspecific Vigna linkage map between Vigna umbellata (Thunb.) Ohwi & Ohashi and V. nakashimae (Ohwi) Ohwi & Ohashi and its use in analysis of bruchid resistance and comparative genomics | Somta P., Kaga A., Tomooka N., Kashiwaba K., Isemura T., Chaitieng B., Srinives P., Vaughan D. | 2006 | Plant Breeding, 125(1), pp. 77-84 | 72 |
| 10 | New microsatellite markers isolated from mungbean (Vigna radiata (L.) Wilczek) | Somta P., Musch W., Kongsamai B., Chanprame S., Nakasathien S., Toojinda T., Sorajjapinun W., Seehalak W., Tragoonrung S., Srinives P. | 2008 | Molecular Ecology Resources, 8(5), pp. 1155-1157 | 70 |
| 11 | An SSR-based linkage map of yardlong bean (Vigna unguiculata (L.) Walp. subsp. unguiculata Sesquipedalis Group) and QTL analysis of pod length | Kongjaimun A., Kaga A., Tomooka N., Somta P., Shimizu T., Shu Y., Isemura T., Vaughan D., Srinives P. | 2012 | Genome, 55(2), pp. 81-92 | 69 |
| 12 | A SNP in GmBADH2 gene associates with fragrance in vegetable soybean variety "Kaori" and SNAP marker development for the fragrance | Juwattanasomran R., Somta P., Chankaew S., Shimizu T., Wongpornchai S., Kaga A., Srinives P. | 2011 | Theoretical and Applied Genetics, 122(3), pp. 533-541 | 63 |
| 13 | Characterization of new sources of mungbean (Vigna radiata (L.) Wilczek) resistance to bruchids, Callosobruchus spp. (Coleoptera: Bruchidae) | Somta C., Somta P., Tomooka N., Ooi P.A.C., Vaughan D.A., Srinives P. | 2008 | Journal of Stored Products Research, 44(4), pp. 316-321 | 63 |
| 14 | Genome sequence of Jatropha curcas L., a non-edible biodiesel plant, provides a resource to improve seed-related traits | Ha J., Ha J., Shim S., Lee T., Kang Y.J., Hwang W.J., Jeong H., Laosatit K., Lee J., Kim S.K., Satyawan D., Lestari P., Yoon M.Y., Kim M.Y., Kim M.Y., Chitikineni A., Tanya P., Somta P., Srinives P., Varshney R.K., Lee S.H., Lee S.H. | 2019 | Plant Biotechnology Journal, 17(2), pp. 517-530 | 62 |
| 15 | Development and validation of EST-SSR markers from the transcriptome of adzuki bean (Vigna angularis) | Chen H., Liu L., Wang L., Wang S., Somta P., Cheng X. | 2015 | PLoS ONE, 10(7), e0131939 | 62 |
| 16 | Detection of quantitative trait loci for mungbean yellow mosaic India virus (MYMIV) resistance in mungbean (Vigna radiata (L.) Wilczek) in India and Pakistan | Kitsanachandee R., Somta P., Chatchawankanphanich O., Akhtar K., Shah T., Nair R., Bains T., Sirari A., Kaur L., Srinives P. | 2013 | Breeding Science, 63(4), pp. 367-373 | 60 |
| 17 | QTL mapping for salt tolerance and domestication-related traits in Vigna marina subsp. oblonga, a halophytic species. | Chankaew S., Isemura T., Naito K., Ogiso-Tanaka E., Tomooka N., Somta P., Kaga A., Vaughan D.A., Srinives P. | 2014 | TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik, 127(3), pp. 691-702 | 60 |
| 18 | A gene encoding a polygalacturonase-inhibiting protein (PGIP) is a candidate gene for bruchid (Coleoptera: bruchidae) resistance in mungbean (Vigna radiata) | Chotechung S., Somta P., Chen J., Yimram T., Chen X., Srinives P. | 2016 | Theoretical and Applied Genetics, 129(9), pp. 1673-1683 | 58 |
| 19 | Genetic variation in cultivated mungbean germplasm and its implication in breeding for high yield | Yimram T., Somta P., Srinives P. | 2009 | Field Crops Research, 112(2-3), pp. 260-266 | 58 |
| 20 | Genetic diversity of the black gram [Vigna mungo (L.) Hepper] gene pool as revealed by SSR markers | Kaewwongwal A., Kongjaimun A., Somta P., Chankaew S., Yimram T., Srinives P. | 2015 | Breeding Science, 65(2), pp. 127-137 | 50 |
| 21 | Detection of genome donor species of neglected tetraploid crop Vigna reflexo-pilosa (cr?ole bean), and genetic structure of diploid species based on newly developed EST-SSR markers from azuki bean (Vigna angularis) | Chankaew S., Isemura T., Isobe S., Kaga A., Tomooka N., Somta P., Hirakawa H., Shirasawa K., Vaughan D., Srinives P. | 2014 | PLoS ONE, 9(8), e104990 | 46 |
| 22 | Co-localization of QTLs for pod fiber content and pod shattering in F | Suanum W., Somta P., Kongjaimun A., Yimram T., Kaga A., Tomooka N., Takahashi Y., Srinives P. | 2016 | Molecular Breeding, 36(6), 80 | 43 |
| 23 | Novel alleles of two tightly linked genes encoding polygalacturonase-inhibiting proteins (VrPGIP1 and VrPGIP2) associated with the Br locus that confer bruchid (callosobruchus spp.) resistance to mungbean (vigna radiata) accession V2709 | Kaewwongwal A., Kaewwongwal A., Chen J., Somta P., Somta P., Kongjaimun A., Yimram T., Chen X., Srinives P., Srinives P. | 2017 | Frontiers in Plant Science, 8, 1692 | 43 |
| 24 | Genetic diversity of the Bambara groundnut (Vigna subterranea (L.) Verdc.) as assessed by SSR markers | Somta P., Chankaew S., Rungnoi O., Srinives P., Scoles G. | 2011 | Genome, 54(11), pp. 898-910 | 43 |
| 25 | Microsatellite markers for mungbean developed from sequence database | Seehalak W., Somta P., Sommanas W., Srinives P. | 2009 | Molecular Ecology Resources, 9(3), pp. 862-864 | 42 |
| 26 | Mapping of quantitative trait loci for phytic acid and phosphorus contents in seed and seedling of mungbean (Vigna radiata (L.) Wilczek) | Sompong U., Somta P., Raboy V., Srinives P. | 2012 | Breeding Science, 62(1), pp. 87-92 | 42 |
| 27 | Global Status of Vegetable Soybean | Nair R.M., Boddepalli V.N., Boddepalli V.N., Yan M.R., Kumar V., Gill B., Pan R.S., Wang C., Hartman G.L., Silva e Souza R., Somta P. | 2023 | Plants, 12(3), 609 | 42 |
| 28 | A chromosome-scale assembly of the black gram (Vigna mungo) genome | Pootakham W., Nawae W., Naktang C., Sonthirod C., Yoocha T., Kongkachana W., Sangsrakru D., Jomchai N., U-thoomporn S., Somta P., Laosatit K., Tangphatsornruang S. | 2021 | Molecular Ecology Resources, 21(1), pp. 238-250 | 40 |
| 29 | Identification and confirmation of quantitative trait loci controlling resistance to mungbean yellow mosaic disease in mungbean [Vigna radiata (L.) Wilczek] | Alam A.K.M.M., Somta P., Srinives P. | 2014 | Molecular Breeding, 34(3), pp. 1497-1506 | 40 |
| 30 | Characterization of Callosobruchus chinensis (L.) resistance in Vigna umbellata (Thunb.) Ohwi & Ohashi | Somta P., Talekar N.S., Srinives P. | 2006 | Journal of Stored Products Research, 42(3), pp. 313-327 | 40 |
| 31 | Mapping of quantitative trait loci for a new source of resistance to bruchids in the wild species Vigna nepalensis Tateishi & Maxted (Vigna subgenus Ceratotropis) | Somta P., Kaga A., Tomooka N., Isemura T., Vaughan D., Srinives P. | 2008 | Theoretical and Applied Genetics, 117(4), pp. 621-628 | 39 |
| 32 | A single base substitution in BADH/AMADH is responsible for fragrance in cucumber (Cucumis sativus L.), and development of SNAP markers for the fragrance | Yundaeng C., Somta P., Tangphatsornruang S., Chankaew S., Srinives P. | 2015 | Theoretical and Applied Genetics, 128(9), pp. 1881-1892 | 39 |
| 33 | Gene discovery and functional marker development for fragrance in sorghum (Sorghum bicolor (L.) Moench) | Yundaeng C., Somta P., Tangphatsornruang S., Wongpornchai S., Srinives P. | 2013 | Theoretical and Applied Genetics, 126(11), pp. 2897-2906 | 37 |
| 34 | Comparative transcriptome analysis of waterlogging-sensitive and tolerant Zombi pea (Vigna vexillata) reveals energy conservation and root plasticity controlling waterlogging tolerance | Butsayawarapat P., Juntawong P., Khamsuk O., Somta P. | 2019 | Plants, 8(8), 264 | 35 |
| 35 | Macrophomina phaseolina–host interface: Insights into an emerging dry root rot pathogen of mungbean and urdbean, and its mitigation strategies | Basandrai A.K., Pandey A.K., Somta P., Basandrai D. | 2021 | Plant Pathology, 70(6), pp. 1263-1275 | 34 |
| 36 | Quantitative trait locus mapping reveals conservation of major and minor loci for powdery mildew resistance in four sources of resistance in mungbean [Vigna radiata (L.) Wilczek] | Chankaew S., Somta P., Isemura T., Tomooka N., Kaga A., Vaughan D., Srinives P. | 2013 | Molecular Breeding, 32(1), pp. 121-130 | 33 |
| 37 | QTL mapping of pod tenderness and total soluble solid in yardlong bean [Vigna unguiculata (L.) Walp. subsp. unguiculata cv.-gr. sesquipedalis] | Kongjaimun A., Somta P., Tomooka N., Kaga A., Vaughan D., Srinives P. | 2013 | Euphytica, 189(2), pp. 217-223 | 32 |
| 38 | SSR map construction and quantitative trait loci (QTL) identification of major agronomic traits in mungbean (Vigna radiata (L.) Wilczek) | Kajonphol T., Sangsiri C., Somta P., Toojinda T., Srinives P. | 2012 | Sabrao Journal of Breeding and Genetics, 44(1), pp. 71-86 | 32 |
| 39 | Evaluation of mungbean genotypes based on yield stability and reaction to mungbean yellow mosaic virus disease | Mahbubul Alam A., Somta P., Jompuk C., Chatwachirawong P., inives P. | 2014 | Plant Pathology Journal, 30(3), pp. 261-268 | 32 |
| 40 | Identification of a new fragrance allele in soybean and development of its functional marker | Juwattanasomran R., Juwattanasomran R., Somta P., Kaga A., Chankaew S., Shimizu T., Sorajjapinun W., Srinives P. | 2012 | Molecular Breeding, 29(1), pp. 13-21 | 27 |
| 41 | Molecular diversity assessment of AVRDC-The World Vegetable Center elite-parental mungbeans | Somta P., Sommanas W., Srinives P. | 2009 | Breeding Science, 59(2), pp. 149-157 | 26 |
| 42 | Genomic analyses of rice bean landraces reveal adaptation and yield related loci to accelerate breeding | Guan J., Guan J., Zhang J., Zhang J., Gong D., Gong D., Zhang Z., Yu Y., Luo G., Somta P., Hu Z., Wang S., Yuan X., Zhang Y., Wang Y., Chen Y., Laosatit K., Chen X., Chen H., Sha A., Cheng X., Xie H., Wang L. | 2022 | Nature Communications, 13(1), 5707 | 26 |
| 43 | Construction of genetic linkage map and genome dissection of domestication-related traits of moth bean (Vigna aconitifolia), a legume crop of arid areas | Yundaeng C., Somta P., Somta P., Amkul K., Amkul K., Kongjaimun A., Kaga A., Tomooka N. | 2019 | Molecular Genetics and Genomics, 294(3), pp. 621-635 | 26 |
| 44 | Fine mapping of QTL conferring Cercospora leaf spot disease resistance in mungbean revealed TAF5 as candidate gene for the resistance | Yundaeng C., Somta P., Somta P., Chen J., Yuan X., Chankaew S., Chen X. | 2021 | Theoretical and Applied Genetics, 134(2), pp. 701-714 | 25 |
| 45 | Genetic diversity and structure of the zombi pea (Vigna vexillata (L.) A. Rich) gene pool based on SSR marker analysis | Dachapak S., Somta P., Poonchaivilaisak S., Yimram T., Srinives P. | 2017 | Genetica, 145(2), pp. 189-200 | 25 |
| 46 | Molecular genetic diversity of Bambara groundnut (Vigna subterranea L. Verdc.) revealed by rapd and ISSR marker analysis | Rungnoi O., Suwanprasert J., Somta P., Srinives P. | 2012 | Sabrao Journal of Breeding and Genetics, 44(1), pp. 87-101 | 24 |
| 47 | Narrowing down a major QTL region conferring pod fiber contents in yardlong bean (Vigna unguiculata), a vegetable cowpea | Watcharatpong P., Kaga A., Chen X., Somta P., Somta P. | 2020 | Genes, 11(4), 363 | 24 |
| 48 | Molecular genetic diversity of winged bean gene pool in Thailand assessed by SSR markers | Laosatit K., Amkul K., Chankaew S., Somta P., Somta P. | 2021 | Horticultural Plant Journal | 24 |
| 49 | Thirty Years of Mungbean Genome Research: Where Do We Stand and What Have We Learned? | Somta P., Laosatit K., Yuan X., Chen X. | 2022 | Frontiers in Plant Science, 13, 944721 | 23 |
| 50 | Same Locus for Non-shattering Seed Pod in Two Independently Domesticated Legumes, Vigna angularis and Vigna unguiculata | Takahashi Y., Kongjaimun A., Muto C., Kobayashi Y., Kumagai M., Sakai H., Satou K., Satou K., Teruya K., Shiroma A., Shimoji M., Hirano T., Isemura T., Saito H., Baba-Kasai A., Kaga A., Somta P., Somta P., Tomooka N., Naito K. | 2020 | Frontiers in Genetics, 11, 748 | 22 |
| 51 | A second VrPGIP1 allele is associated with bruchid resistance (Callosobruchus spp.) in wild mungbean (Vigna radiata var. sublobata) accession ACC41 | Kaewwongwal A., Kaewwongwal A., Liu C., Somta P., Somta P., Somta P., Chen J., Tian J., Yuan X., Chen X. | 2020 | Molecular Genetics and Genomics, 295(2), pp. 275-286 | 21 |
| 52 | Development of an SNP-based high-density linkage map and QTL analysis for bruchid (Callosobruchus maculatus F.) resistance in black gram (Vigna mungo (L.) Hepper) | Somta P., Somta P., Chen J., Yundaeng C., Yuan X., Yimram T., Tomooka N., Chen X. | 2019 | Scientific Reports, 9(1), 3930 | 21 |
| 53 | A Class II KNOX Gene, KNAT7-1, Regulates Physical Seed Dormancy in Mungbean [Vigna radiata (L.) Wilczek] | Laosatit K., Laosatit K., Amkul K., Yimram T., Chen J., Lin Y., Yuan X., Wang L., Chen X., Somta P., Somta P., Somta P. | 2022 | Frontiers in Plant Science, 13, 852373 | 20 |
| 54 | Mapping QTL conferring resistance to iron deficiency chlorosis in mungbean [Vigna radiata (L.) Wilczek] | Prathet P., Prathet P., Somta P., Srinives P. | 2012 | Field Crops Research, 137, pp. 230-236 | 20 |
| 55 | Mapping QTL for bruchid resistance in rice bean (Vigna umbellata) | Venkataramana P., Gowda R., Somta P., Ramesh S., Mohan Rao A., Bhanuprakash K., Srinives P., Gireesh C., Pramila C. | 2016 | Euphytica, 207(1), pp. 135-147 | 20 |
| 56 | Generation mean and path analyses of reaction to mungbean yellow mosaic virus (MYMV) and yield-related traits in mungbean (Vigna radiata (L.) Wilczek) | Alam A., Somta P., Srinives P. | 2014 | Sabrao Journal of Breeding and Genetics, 46(1), pp. 150-159 | 20 |
| 57 | Gene mapping of a mutant mungbean (Vigna radiata L.) using new molecular markers suggests a gene encoding a YUC4-like protein regulates the chasmogamous flower trait | Chen J., Chen J., Somta P., Chen X., Cui X., Yuan X., Srinives P. | 2016 | Frontiers in Plant Science, 7(June2016), 830 | 17 |
| 58 | QTL analysis of domestication syndrome in zombi pea (Vigna vexillata), an underutilized legume crop | Dachapak S., Tomooka N., Somta P., Naito K., Kaga A., Srinives P. | 2018 | PLoS ONE, 13(12), e0200116 | 17 |
| 59 | A single recessive gene controls fragrance in cucumber (Cucumis sativus L.) | Pramnoi P., Somta P., Chankaew S., Juwattanasomran R., Srinives P. | 2013 | Journal of Genetics, 92(1), pp. 147-149 | 15 |
| 60 | Mapping and Functional Characterization of Stigma Exposed 1, a DUF1005 Gene Controlling Petal and Stigma Cells in Mungbean (Vigna radiata) | Lin Y., Laosatit K., Chen J., Yuan X., Wu R., Amkul K., Chen X., Somta P., Somta P. | 2020 | Frontiers in Plant Science, 11, 575922 | 15 |
| 61 | Construction of a high density linkage map and genome dissection of bruchid resistance in zombi pea (Vigna vexillata (L.) A. Rich) | Amkul K., Amkul K., Amkul K., Wang L., Somta P., Somta P., Somta P., Wang S., Cheng X. | 2019 | Scientific Reports, 9(1), 11719 | 14 |
| 62 | QTL Mapping for Agronomic and Adaptive Traits Confirmed Pleiotropic Effect of mog Gene in Black Gram [Vigna mungo (L.) Hepper] | Somta P., Somta P., Somta P., Chen J., Yimram T., Yundaeng C., Yuan X., Tomooka N., Chen X. | 2020 | Frontiers in Genetics, 11, 635 | 14 |
| 63 | RNA-Seq Reveals Waterlogging-Triggered Root Plasticity in Mungbean Associated with Ethylene and Jasmonic Acid Signal Integrators for Root Regeneration | Sreeratree J., Butsayawarapat P., Chaisan T., Somta P., Juntawong P. | 2022 | Plants, 11(7), 930 | 14 |
| 64 | Genetics of resistance to Cercospora leaf spot disease caused by Cercospora canescens and Psuedocercospora cruenta in yardlong bean (Vigna unguiculata ssp. sesquipedalis) ? grain cowpea (V. unguiculata ssp. unguiculata) populations | Duangsong U., Laosatit K., Somta P., Somta P., Srinives P., Srinives P. | 2018 | Journal of Genetics, 97(5), pp. 1451-1456 | 14 |
| 65 | Genetic dissection of azuki bean weevil (Callosobruchus chinensis L.) resistance in moth bean (vigna aconitifolia [jaqc.] mar?chal) | Somta P., Somta P., Jomsangawong A., Yundaeng C., Yuan X., Chen J., Tomooka N., Chen X. | 2018 | Genes, 9(11), 555 | 13 |
| 66 | Quantitative trait loci associated with seed weight in mungbean (Vigna radiata (L.) wilczek | Mahbubul Alam A., Somta P., Muktadir M., Srinives P. | 2014 | Kasetsart Journal - Natural Science, 48(2), pp. 197-204 | 13 |
| 67 | QTLs controlling seed weight and days to flowering in mungbean [Vigna radiata (L.) Wilczek], their conservation in azuki bean [V. angularis (Ohwi) Ohwi & Ohashi] and rice bean [V. umbellata (Thunb.) Ohwi & Ohashi] | Somta P., Chankaew S., Kongjaimun A., Srinives P. | 2015 | Agrivita, 37(2), pp. 159-168 | 12 |
| 68 | Identification of a major QTL for resistance to Cercospora leaf spot disease in cowpea (Vigna unguiculata (L.) Walp.) revealed common genomic region with that for the resistance to angular leaf spot in common bean (Phaseolus vulgaris L.) | Duangsong U., Kaewwongwal A., Somta P., Chankaew S., Srinives P. | 2016 | Euphytica, 209(1), pp. 199-207 | 12 |
| 69 | Mapping quantitative trait loci for yield-related traits in soybean (Glycine max L) | Dargahi H., Tanya P., Somta P., Abe J., Srinives P. | 2015 | Breeding Science, 64(4), pp. 282-290 | 12 |
| 70 | Identification of QTLs for Domestication-Related Traits in Zombi Pea [Vigna vexillata (L.) A. Rich], a Lost Crop of Africa | Amkul K., Somta P., Somta P., Laosatit K., Wang L. | 2020 | Frontiers in Genetics, 11, 803 | 12 |
| 71 | Molecular Analysis of Genetic Diversity and Structure of the Lablab (Lablab purpureus (L.) Sweet) Gene Pool Reveals Two Independent Routes of Domestication | Kongjaimun A., Takahashi Y., Yoshioka Y., Tomooka N., Mongkol R., Somta P. | 2023 | Plants, 12(1), 57 | 12 |
| 72 | Two tightly linked genes coding for NAD-dependent malic enzyme and dynamin-related protein are associated with resistance to Cercospora leaf spot disease in cowpea (Vigna unguiculata (L.) Walp.) | Heng T., Kaga A., Chen X., Somta P., Somta P. | 2020 | Theoretical and Applied Genetics, 133(2), pp. 395-407 | 11 |
| 73 | Genetic diversity and structure of landrace of lablab (Lablab purpureus (L.) sweet) cultivars in Thailand revealed by SSR markers | Amkul K., Sookbang J.M., Somta P., Somta P. | 2021 | Breeding Science, 71(2), pp. 176-183 | 11 |
| 74 | Mapping of QTLs for seed phorbol esters, a toxic chemical in Jatropha curcas (L.) | Amkul K., Laosatit K., Somta P., Shim S., Lee S.H., Tanya P., Srinives P. | 2017 | Genes, 8(8), 205 | 11 |
| 75 | Candidate gene mapping reveals VrMLO12 (MLO Clade II) is associated with powdery mildew resistance in mungbean (Vigna radiata [L.] Wilczek) | Yundaeng C., Somta P., Somta P., Chen J., Yuan X., Chankaew S., Srinives P., Srinives P., Chen X. | 2020 | Plant Science, 298, 110594 | 11 |
| 76 | A homoploid hybrid between Wild Vigna species found in a limestone karst | Takahashi Y., Iseki K., Kitazawa K., Muto C., Somta P., Irie K., Naito K., Tomooka N. | 2015 | Frontiers in Plant Science, 6(DEC), 1050 | 10 |
| 77 | A new taxonomic treatment for some wild relatives of mungbean (Vigna radiata (L.) Wilcz.) based on their molecular phylogenetic relationships and morphological variations | Takahashi Y., Muto C., Iseki K., Naito K., Somta P., Pandiyan M., Senthil N., Tomooka N. | 2018 | Genetic Resources and Crop Evolution, 65(4), pp. 1109-1121 | 9 |
| 78 | The First Genetic Linkage Map of Winged Bean [Psophocarpus tetragonolobus (L.) DC.] and QTL Mapping for Flower-, Pod-, and Seed-Related Traits | Chankaew S., Sriwichai S., Rakvong T., Monkham T., Sanitchon J., Tangphatsornruang S., Kongkachana W., Sonthirod C., Pootakham W., Amkul K., Kaewwongwal A., Laosatit K., Somta P. | 2022 | Plants, 11(4), 500 | 9 |
| 79 | Marker-Assisted Backcross Breeding for Improving Bruchid (Callosobruchus spp.) Resistance in Mung Bean (Vigna radiata L.) | Wu R., Wu R., Zhang Q., Lin Y., Lin Y., Chen J., Chen J., Somta P., Yan Q., Yan Q., Xue C., Xue C., Liu J., Liu J., Chen X., Chen X., Yuan X., Yuan X. | 2022 | Agronomy, 12(6), 1271 | 8 |
| 80 | Tandemly duplicated genes encoding polygalacturonase inhibitors are associated with bruchid (Callosobruchus chinensis) resistance in moth bean (Vigna aconitifolia) | Rathnayaka Gamage S.I., Rathnayaka Gamage S.I., Kaewwongwal A., Laosatit K., Yimram T., Lin Y., Chen X., Nakazono M., Somta P. | 2022 | Plant Science, 323, 111402 | 8 |
| 81 | The genome and transcriptome analysis of the vigna mungo chloroplast | Nawae W., Yundaeng C., Naktang C., Kongkachana W., Yoocha T., Sonthirod C., Narong N., Somta P., Laosatit K., Tangphatsornruang S., Pootakham W. | 2020 | Plants, 9(9), pp. 1-17, 1247 | 8 |
| 82 | Genetics, genomics, and breeding of black gram [Vigna mungo (L.) Hepper] | Nair R.M., Chaudhari S., Devi N., Shivanna A., Gowda A., Boddepalli V.N., Pradhan H., Schafleitner R., Jegadeesan S., Somta P. | 2023 | Frontiers in Plant Science, 14, 1273363 | 8 |
| 83 | Inheritance and a major quantitative trait locus of seed starch content in mungbean (Vigna radiata (L.) Wilczek) | Masari A., Kaewwongwal A., Kaewwongwal A., Somta P., Somta P., Srinives P. | 2017 | Euphytica, 213(8), 166 | 8 |
| 84 | Fruit flies reared from Terminalia catappa in Thailand | Somta C., Winotai A., Ooi P.A.C. | 2010 | Journal of Asia-Pacific Entomology, 13(1), pp. 27-30 | 7 |
| 85 | BADH1 is associated with fragrance in sorghum (Sorghum bicolor (L.) Moench) cultivar ‘Ambemohor’ | Monkhan T., Chen X., Somta P., Somta P., Somta P. | 2021 | Journal of Genetics, 100(1), 3 | 7 |
| 86 | Genetic analysis of seed resistance to Callosobruchus chinensis and Callosobruchus maculatus in cowpea | Thandar K., Laosatit K., Yimram T., Somta P. | 2021 | Journal of Stored Products Research, 92, 101783 | 7 |
| 87 | The mungbean VrP locus encoding MYB90, an R2R3-type MYB protein, regulates anthocyanin biosynthesis | Lin Y., Laosatit K., Liu J., Chen J., Yuan X., Somta P., Chen X. | 2022 | Frontiers in Plant Science, 13, 895634 | 7 |
| 88 | Mapping QTLs Controlling Soybean Rust Disease Resistance in Chiang Mai 5, an Induced Mutant Cultivar | Chanchu T., Yimram T., Chankaew S., Kaga A., Somta P. | 2023 | Genes, 14(1), 19 | 6 |
| 89 | Genome assemblies of Vigna reflexo-pilosa (cr?ole bean) and its progenitors, Vigna hirtella and Vigna trinervia, revealed homoeolog expression bias and expression-level dominance in the allotetraploid | Pootakham W., Sonthirod C., Naktang C., Yundaeng C., Yoocha T., Kongkachana W., Sangsrakru D., Somta P., Tangphatsornruang S. | 2022 | GigaScience, 12, giad050 | 6 |
| 90 | The genetics of pandan-like fragrance, 2-acetyl-1-pyrroline, in crops | Somta P., Kuswanto K., Srinives P., Srinives P. | 2019 | Agrivita, 41(1), pp. 10-22 | 6 |
| 91 | De novo Transcriptome Analysis of Apical Meristem of Jatropha spp. Using 454 Pyrosequencing Platform, and Identification of SNP and EST-SSR Markers | Laosatit K., Tanya P., Tanya P., Somta P., Ruang-areerate P., Sonthirod C., Tangphatsornruang S., Juntawong P., Srinives P., Srinives P. | 2016 | Plant Molecular Biology Reporter, 34(4), pp. 786-793 | 6 |
| 92 | Damage potential of root-knot nematode (Meloidogyne incognita chitwood) population density on plant growth parameters related to plant age of mung bean (Vigna radiata (L.) Wilczek) | Siengchin K., Ruanpanun P., Somta P. | 2020 | Journal of the International Society for Southeast Asian Agricultural Sciences, 26(1), pp. 111-122 | 6 |
| 93 | Detection of quantitative trait loci for salt tolerance in zombi pea [Vigna vexillata (L.) A. Rich] | Dachapak S., Somta P., Somta P., Naito K., Tomooka N., Kaga A., Srinives P., Srinives P. | 2019 | Euphytica, 215(12), 208 | 5 |
| 94 | Dissecting quantitative trait loci for agronomic traits responding to iron deficeincy in mungbean [Vigna radiata (L.) Wilczek] | Somta P., Prathet P., Prathet P., Kongjaimun A., Srinives P. | 2014 | Agrivita, 36(2), pp. 101-111 | 4 |
| 95 | Genetic diversity and population structure of Vigna exilis and Vigna grandiflora (Phaseoleae, Fabaceae) from Thailand based on microsatellite variation | Kaewwongwal A., Jetsadu A., Somta P., Chankaew S., Srinives P. | 2013 | Botany, 91(10), pp. 653-661 | 4 |
| 96 | Identification and resistant characterization of legume sources against Meloidogyne incognita | RUANPANUN P., SOMTA P. | 2021 | Journal of Integrative Agriculture, 20(1), pp. 168-177 | 4 |
| 97 | Antagonistic pleiotropy of Ln gene controls trade-off between 2-seeded pods and 4-seeded pods in soybean | Chanchu T., Somta P., Yimram T., Laosatit K., Kaga A., Srinives P. | 2023 | Euphytica, 219(9), 87 | 4 |
| 98 | Evaluating anatomical characteristics associated with leaf rolling in northeastern Thai rice cultivars during drought by decision tree | Gunnula W., Kanawapee N., Somta P., Phansak P. | 2022 | Acta Agrobotanica, 75, 7510 | 3 |
| 99 | Decision Support System for Selecting Mung Bean Cultivation Sites in Central Thailand Based on Soil Suitability Class | Phankamolsil N., Chungopast S., Sonsri K., Duangkamol K., Polfukfang S., Somta P. | 2023 | Agronomy, 13(4), 1030 | 3 |
| 100 | Mapping of quantitative trait locus reveals PsXI gene encoding xylanase inhibitor as the candidate gene for bruchid (Callosobruchus spp.) resistance in pea (Pisum sativum L.) | Yan J., Chen J., Lin Y., Yuan X., Somta P., Zhang Y., Zhang Z., Zhang X., Chen X. | 2023 | Frontiers in Plant Science, 14, 1057577 | 3 |
| 101 | Identification of quantitative trait loci controlling flowering time in black gram (Vigna mungo [L.] Hepper) | Suamuang S., Suamuang S., Lomlek C., Kongkachana W., Tangphatsornruang S., Laosatit K., Tanadul O.U.M., Tanadul O.U.M., Somta P. | 2023 | Agriculture and Natural Resources, 57(1), pp. 43-50 | 3 |
| 102 | Genetic diversity of quinoa (Chenopodium quinoa Willd.) germplasm as revealed by sequence-related amplified polymorphism markers | Laosatit K., Taytragool S., Pimsaythong K., Somta P., Tanadul O.U.M., Tanadul O.U.M. | 2021 | Agriculture and Natural Resources, 55(3), pp. 341-348 | 3 |
| 103 | Identification of important morphology for waterlogging tolerance from developed mung bean F | Thongthip N., Kongsil P., Somta P., Chaisan T. | 2023 | Chilean Journal of Agricultural Research, 83(2), pp. 236-247 | 2 |
| 104 | Editorial: Genetics of domestication and diversification towards evolution of crop plants | Pratap A., Somta P., Sm?kal P., Gupta S. | 2023 | Frontiers in Genetics, 14, 1175931 | 2 |
| 105 | A Gene Encoding Xylanase Inhibitor Is a Candidate Gene for Bruchid (Callosobruchus spp.) Resistance in Zombi Pea (Vigna vexillata (L.) A. Rich) | Amkul K., Laosatit K., Lin Y., Yuan X., Chen X., Somta P. | 2023 | Plants, 12(20), 3602 | 2 |
| 106 | Registration of ‘KUML4’ and ‘KUML8’ mungbean cultivars with high yield and large seeds | Somta P., Sorajjapinun W., Yimram T., Tanadul O.u.m., Laosatit K., Srinives P. | 2024 | Journal of Plant Registrations | 2 |
| 107 | Genetic diversity of sweet corn inbred lines of public sectors in Thailand revealed by SSR markers | Laosatit K., Amkul K., Somta P., Tanadul O.U.M., Kerdsri C., Mongkol W., Jitlaka C., Suriharn K., Jompuk C. | 2022 | Crop Breeding and Applied Biotechnology, 22(4), e431322410 | 2 |
| 108 | A Cluster of Peronospora parasitica 13-like (NBS-LRR) Genes Is Associated with Powdery Mildew (Erysiphe polygoni) Resistance in Mungbean (Vigna radiata) | Waengwan P., Laosatit K., Lin Y., Yimram T., Yuan X., Chen X., Somta P. | 2024 | Plants, 13(9), 1230 | 2 |
| 109 | Genetic diversity and population structure of pencil yam (Vigna lanceolata) (Phaseoleae, Fabaceae), a wild herbaceous legume endemic to Australia, revealed by microsatellite markers | Nubankoh P., Pimtong S., Somta P., Dachapak S., Srinives P. | 2015 | Botany, 93(3), pp. 183-191 | 2 |
| 110 | Genetic diversity of zombi pea (Vigna vexillata) assessed by microsatellite markers | Somta P., Dachapak S., Yimram T., Srinives P., Poonchaivilaisak S. | 2019 | Acta Horticulturae, 1241, pp. 143-149 | 2 |
| 111 | Improving HSE Performance by Management of Human Factors | Pipitsangchand S., Somta P. | 2002 | International Conference on Health, Safety and Environment in Oil and Gas Exploration and Production, pp. 787-795 | 2 |
| 112 | Cross-species amplification of microsatellite markers in Bambara groundnut (Vigna subterranea) and their application in diversity study | Somta P., Chankaew S., Srinives P., Rungnoi O. | 2013 | Acta Horticulturae, 979, pp. 431-436 | 1 |
| 113 | Development of pyramided mung bean lines carrying resistance genes for Cercospora leaf spot disease and bruchids | Laosatit K., Yimram T., Keawwongwal A., Srichan M., Amkul K., Tanadul O.U.M., Masmeatathip R., Somta P. | 2024 | Chilean Journal of Agricultural Research, 84(5), pp. 644-652 | 1 |
| 114 | Inheritance of salt tolerance in wild mungbean (Vigna radiata var. sublobata) | Deeroum A., Thepphomwong K., Laosatit K., Somta P. | 2024 | Agriculture and Natural Resources, 58(4), pp. 469-476 | 1 |
| 115 | Comparative transcriptomic analysis reveals genes encoding polygalacturonase inhibitors and lectins as promising candidates conferring bruchid (Callosobruchus chinensis) resistance in moth bean (Vigna aconitifolia) | Gamage S.I.R., Takahashi H., Bui K.T., Nakazono M., Somta P. | 2023 | Agriculture and Natural Resources, 57(6), pp. 797-988 | 1 |
| 116 | QTL analysis of seed weight and seed dormancy in black gram (Vigna mungo [L.] Hepper) | Lomlek C., Suamuang S., Laosatit K., Tangphatsornruang S., Tanadul O.U., Somta P. | 2023 | Agriculture and Natural Resources, 57(3), pp. 397-406 | 1 |
| 117 | Fine mapping of QTL conferring resistance to calcareous soil in mungbean reveals VrYSL3 as candidate gene for the resistance | Lin Y., Amkul K., Laosatit K., Liu J., Yimram T., Chen J., Yuan X., Chen X., Somta P. | 2023 | Plant Science, 332, 111698 | 1 |
| 118 | Construction of a SNP-based linkage map and identification of QTLs for woody biomass-related traits using an interspecific F | Laosatit K., Amkul K., Somta P., Somta P., Lee T., Lee T., Shim S., Shim S., Lee S.H., Lee S.H., Srinives P., Srinives P., Srinives P. | 2024 | Euphytica, 220(4), 55 | 0 |
| 119 | A de novo chromosome-scale assembly of the Lablab purpureus genome | Pootakham W., Somta P., Kongkachana W., Naktang C., Sonthirod C., U-Thoomporn S., Yoocha T., Phadphon P., Tangphatsornruang S. | 2024 | Frontiers in Plant Science, 15, 1347744 | 0 |
| 120 | Evaluating Genetic Coefficients of KUML4 Mung Bean Variety for a Crop Simulation Model | Inboonchuay T., Wongmaneeroj A., Phankamolsil N., Chungopast S., Kongthon S., Somta P. | 2024 | Agrivita, 46(3), pp. 425-438 | 0 |
| 121 | QTL-seq and QTL mapping identify a new locus for Cercospora leaf spot (Cercospora canescens) resistance in mungbean (Vigna radiata) and a cluster of Receptor-like protein 12 (RLP12) genes as candidate genes for the resistance | Srichan M., Laosatit K., Lin Y., Yuan X., Chen X., Somta P. | 2024 | Theoretical and Applied Genetics, 137(12), 278 | 0 |
| 122 | A chromosome-scale genome assembly of mungbean (Vigna radiata) | Khanbo S., Phadphon P., Naktang C., Sangsrakru D., Waiyamitra P., Narong N., Yundaeng C., Tangphatsornruang S., Laosatit K., Somta P., Pootakham W. | 2024 | PeerJ, 12(12), e18771 | 0 |
| 123 | Diurnal Regulation of SOS Pathway and Sodium Excretion Underlying Salinity Tolerance of Vigna marina | Noda Y., Wang F., Chankaew S., Chankaew S., Ariga H., Muto C., Iki Y., Ohashi H., Takahashi Y., Sakai H., Iseki K., Ogiso-Tanaka E., Suzui N., Yin Y.G., Miyoshi Y., Enomoto K., Kawachi N., Somta P., Furukawa J., Tomooka N., Naito K. | 2025 | Plant, Cell and Environment | 0 |
| 124 | Two genes encoding caffeoyl coenzyme A O-methyltransferase 1 (CCoAOMT1) are candidate genes for physical seed dormancy in cowpea (Vigna unguiculata (L.) Walp.) | Laosatit K., Amkul K., Lin Y., Yuan X., Chen X., Somta P. | 2024 | Theoretical and Applied Genetics, 137(7), 146 | 0 |
| 125 | Narrowing down a major QTL region reveals Phytochrome E (PHYE) as the candidate gene controlling flowering time in mungbean (Vigna radiata) | Amkul K., Laosatit K., Lin Y., Yimram T., Chen J., Yuan X., Chen X., Somta P. | 2024 | Breeding Science, 74(2), pp. 83-92 | 0 |
| 126 | Identification of novel QTLs for salt tolerance in zombi pea (Vigna vexillata) | Laosatit K., Amkul K., Wang L., Somta P. | 2024 | Euphytica, 220(7), 110 | 0 |
| 127 | Positive impact of similarity on twice single seed descent of purification on bambara groundnut (Vigna subterranea L. verdcourt) | Kuswanto, Somta P. | 2018 | Agrivita, 40(1), pp. 141-149 | 0 |