Expertise Cloud

BADH2Bang Boet dura oil palmBradyrhizobiumCallosobruchus chinensiscorrelationcowpeadomesticationElaeis guineensisembryo rescueERFsErysiphe polygonievolutionfragranceGenetic structuregenomicsGlycine maxgreen gramHost-plant resistanceimmature stageinheritanceInsect resistanceIntergeneric hybridinterspecific crossinterspecific hybridinterspecific hybridsISSR MarkersJatropha curcasJatropha curcas L.jatropha hybridsJatropha spp.jatropha-related specieslegumeslinkage maplow oxygenmicrosatelliteMicrosatellite markermicrosatellite markersmicrosatellitesMungbeanmutationMYMIVoutcrossingphenotypic variationphysic nutPhytic acidplant breedingPod qualitypost-fertilization barrierPowdery mildewQTLQTL mappingquantitative trait lociRAPD markersrepeatabilityRNA-seqSalt toleranceseed sizeseed yieldSimple sequence repeatSSR markerSSR markerstranscriptional controlvegetable soybeanviability testVigna angularisVigna radiataVigna radiata Vigna spp.Vigna subterraneaVigna umbellataVigna unguiculatayardlong beanyield stabilityการทดสอบพันธุ์การปรับปรุงพันธุ์การปรับปรุงพันธุ์พืชการเปรียบเทียบวิธีการคัดเลือกการผสมข้ามชนิดการวิเคราะห์ทะลายปาล์มข้าวโพดเข็มปัตตาเวียความหอมชนิดดูราชีวมวลถั่วเหลืองเนื้อไม้ประชากรประเภทต้นกล้าปริมาณน้ำมันปาล์มน้ำมันปาล์มน้ำมันแบบดูราสายพันธุ์บางเบิดแปลงสาธิตผลผลิตชีวมวลผลผลิตเมล็ดพืชพลังงานลูกผสมข้ามชนิดลูกผสมภายในชนิดสหสัมพันธ์เสถียรภาพของผลผลิตเสถียรภาพผลผลิต

Interest


Resource

  • จำนวนหน่วยปฏิบัติการที่เข้าร่วม 0 หน่วย
  • จำนวนเครื่องมือวิจัย 0 ชิ้น

งานวิจัยในรอบ 5 ปี

Project

งานวิจัยที่อยู่ระหว่างการดำเนินการ
  • ทุนใน 19 โครงการ (ผู้ร่วมวิจัย 19 โครงการ)
  • ทุนนอก 0 โครงการ
งานวิจัยที่เสร็จสิ้นแล้ว
  • ทุนใน 6 โครงการ (ที่ปรึกษาโครงการ 1 โครงการ, ผู้ร่วมวิจัย 5 โครงการ)
  • ทุนนอก 29 โครงการ (หัวหน้าโครงการ 13 โครงการ, ที่ปรึกษาโครงการ 10 โครงการ, ผู้ร่วมวิจัย 6 โครงการ)

แนวโน้มผลงานทั้งหมดเทียบกับแนวโน้มผลงานในรอบ 5 ปี

Output

  • บทความ 209 เรื่อง (ตีพิมพ์ในวารสารวิชาการ 157 เรื่อง, นำเสนอในการประชุม/สัมมนา 52 เรื่อง)
  • ทรัพย์สินทางปัญญา 4 เรื่อง (อนุสิทธิบัตร 4 เรื่อง)
  • สิ่งประดิษฐ์ 4 เรื่อง (ขึ้นทะเบียนพันธุ์พืช หรือพันธุ์สัตว์ หรือสิ่งประดิษฐ์ มก. 4 เรื่อง)

แนวโน้มการนำผลงานไปใช้ประโยชน์ในด้านต่างๆ

Outcome

  • การนำผลงานไปใช้ประโยชน์ 13 เรื่อง (เชิงวิชาการ 13 เรื่อง, เชิงนโยบาย/บริหาร 0 เรื่อง, เชิงสาธารณะ 0 เรื่อง, เชิงพาณิชย์ 0 เรื่อง)

รางวัลที่ได้รับ

Award

  • รางวัลที่ได้รับ 19 เรื่อง (ประกาศเกียรติคุณ/รางวัลนักวิจัย 8 เรื่อง, รางวัลผลงานวิจัย/สิ่งประดิษฐ์ 6 เรื่อง, รางวัลผลงานนำเสนอในการประชุมวิชาการ 5 เรื่อง)


Scopus h-index

#Document titleAuthorsYearSourceCited by
1Genome sequence of mungbean and insights into evolution within Vigna speciesKang 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.2014Nature Communications
5
282
2Characterization 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.2009BMC Plant Biology
9
125
3Construction 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.2012PLoS ONE
7(8)
102
4Genetic Diversity Among Jatropha and Jatropha-Related Species Based on ISSR MarkersTanya P., Taeprayoon P., Hadkam Y., Srinives P.2011Plant Molecular Biology Reporter
29(1),pp. 252-264
82
5Genetic diversity of the mungbean (Vigna radiata, Leguminosae) genepool on the basis of microsatellite analysisSangiri C., Kaga A., Tomooka N., Vaughan D., Srinives P.2007Australian Journal of Botany
55(8),pp. 837-847
68
6Development, characterization and cross-species amplification of mungbean (Vigna radiata) genic microsatellite markersSomta P., Seehalak W., Srinives P.2009Conservation Genetics
10(6),pp. 1939-1943
66
7New 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.2008Molecular Ecology Resources
8(5),pp. 1155-1157
65
8Inheritance of seed resistance to bruchids in cultivated mungbean (Vigna radiata, L. Wilczek)Somta P., Ammaranan C., Ooi P.A.C., Srinives P.2007Euphytica
155(1-2),pp. 47-55
62
9The genetics of domestication of yardlong bean, Vigna unguiculata (L.) Walp. ssp. unguiculata cv.-gr. sesquipedalisKongjaimun A., Kaga A., Tomooka N., Somta P., Vaughan D., Srinives P.2012Annals of Botany
109(6),pp. 1185-1200
61
10An SSR-based linkage map of yardlong bean (Vigna unguiculata (L.) Walp. subsp. unguiculata Sesquipedalis Group) and QTL analysis of pod lengthKongjaimun A., Kaga A., Tomooka N., Somta P., Shimizu T., Shu Y., Isemura T., Vaughan D., Srinives P.2012Genome
55(2),pp. 81-92
59
11Development 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 genomicsSomta P., Kaga A., Tomooka N., Kashiwaba K., Isemura T., Chaitieng B., Srinives P., Vaughan D.2006Plant Breeding
125(1),pp. 77-84
59
12Quantitative trait loci mapping of Cercospora leaf spot resistance in mungbean, Vigna radiata (L.) WilczekChankaew S., Somta P., Sorajjapinun W., Srinives P.2011Molecular Breeding
28(2),pp. 255-264
58
13A SNP in GmBADH2 gene associates with fragrance in vegetable soybean variety "Kaori" and SNAP marker development for the fragranceJuwattanasomran R., Somta P., Chankaew S., Shimizu T., Wongpornchai S., Kaga A., Srinives P.2011Theoretical and Applied Genetics
122(3),pp. 533-541
48
14Characterization 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.2008Journal of Stored Products Research
44(4),pp. 316-321
48
15Elucidation of the molecular responses to waterlogging in Jatropha roots by transcriptome profilingJuntawong P., Sirikhachornkit A., Pimjan R., Sonthirod C., Sangsrakru D., Yoocha T., Tangphatsornruang S., Srinives P.2014Frontiers in Plant Science
5(DEC)
43
16A 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.2016Theoretical and Applied Genetics
129(9),pp. 1673-1683
42
17Genetic variation in cultivated mungbean germplasm and its implication in breeding for high yieldYimram T., Somta P., Srinives P.2009Field Crops Research
112(2-3),pp. 260-266
41
18International Perceptions and Approval of Gene TherapyMacer D.R.J., Macer D.R.J., Akiyama S., Alora A.T., Asada Y., Azariah J., Azariah H., Boost M.V., Chatwachirawong P., Kato Y., Kaushik V., Leavitt F.J., Macer N.Y., Ong C.C., Srinives P., Tsuzuki M.1995Human Gene Therapy
6(6),pp. 791-803
40
19Microsatellite markers for mungbean developed from sequence databaseSeehalak W., Somta P., Sommanas W., Srinives P.2009Molecular Ecology Resources
9(3),pp. 862-864
39
20Genome sequence of Jatropha curcas L., a non-edible biodiesel plant, provides a resource to improve seed-related traitsHa 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.2019Plant Biotechnology Journal
17(2),pp. 517-530
38
21QTL 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.2014TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik
127(3),pp. 691-702
37
22Detection of quantitative trait loci for mungbean yellow mosaic India virus (MYMIV) resistance in mungbean (Vigna radiata (L.) Wilczek) in India and PakistanKitsanachandee R., Somta P., Chatchawankanphanich O., Akhtar K., Shah T., Nair R., Bains T., Sirari A., Kaur L., Srinives P.2013Breeding Science
63(4),pp. 367-373
36
23Genetic diversity of the Bambara groundnut (Vigna subterranea (L.) Verdc.) as assessed by SSR markersSomta P., Chankaew S., Rungnoi O., Srinives P., Scoles G.2011Genome
54(11),pp. 898-910
34
24Detection of genome donor species of neglected tetraploid crop Vigna reflexo-pilosa (créole 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.2014PLoS ONE
9(8)
34
25Characterization of Callosobruchus chinensis (L.) resistance in Vigna umbellata (Thunb.) Ohwi & OhashiSomta P., Talekar N.S., Srinives P.2006Journal of Stored Products Research
42(3),pp. 313-327
34
26Mapping 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.2008Theoretical and Applied Genetics
117(4),pp. 621-628
32
27Co-localization of QTLs for pod fiber content and pod shattering in F2 and backcross populations between yardlong bean and wild cowpeaSuanum W., Somta P., Kongjaimun A., Yimram T., Kaga A., Tomooka N., Takahashi Y., Srinives P.2016Molecular Breeding
36(6)
32
28A single base substitution in BADH/AMADH is responsible for fragrance in cucumber (Cucumis sativus L.), and development of SNAP markers for the fragranceYundaeng C., Somta P., Tangphatsornruang S., Chankaew S., Srinives P.2015Theoretical and Applied Genetics
128(9),pp. 1881-1892
30
29Novel 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 V2709Kaewwongwal A., Kaewwongwal A., Chen J., Somta P., Somta P., Kongjaimun A., Yimram T., Chen X., Srinives P., Srinives P.2017Frontiers in Plant Science
8
29
30Mapping 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.2012Breeding Science
62(1),pp. 87-92
28
31Gene discovery and functional marker development for fragrance in sorghum (Sorghum bicolor (L.) Moench)Yundaeng C., Somta P., Tangphatsornruang S., Wongpornchai S., Srinives P.2013Theoretical and Applied Genetics
126(11),pp. 2897-2906
27
32Genetic diversity of the black gram [Vigna mungo (L.) Hepper] gene pool as revealed by SSR markersKaewwongwal A., Kongjaimun A., Somta P., Chankaew S., Yimram T., Srinives P.2015Breeding Science
65(2),pp. 127-137
27
33Molecular diversity assessment of AVRDC-The World Vegetable Center elite-parental mungbeansSomta P., Sommanas W., Srinives P.2009Breeding Science
59(2),pp. 149-157
26
34Removal of lead from contaminated soils by Typha angustifoliaPanich-Pat T., Pokethitiyook P., Kruatrachue M., Upatham E., Srinives P., Lanza G.2004Water, Air, and Soil Pollution
155(1-4),pp. 159-171
26
35SSR markers linking to seed traits and total oil content in soybeanMoongkanna J., Moongkanna J., Nakasathien S., Nakasathien S., Nakasathien S., Novitzky W., Kwanyuen P., Sinchaisri P., Srinives P., Srinives P.2011Thai Journal of Agricultural Science
44(4),pp. 233-241
24
36SSR 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.2012Sabrao Journal of Breeding and Genetics
44(1),pp. 71-86
24
37QTL 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.2013Euphytica
189(2),pp. 217-223
23
38QTL identification of flowering time at three different latitudes reveals homeologous genomic regions that control flowering in soybeanLiu W., Kim M.Y., Kang Y.J., Van K., Lee Y.H., Srinives P., Yuan D.L., Lee S.H., Lee S.H.2011Theoretical and Applied Genetics
123(4),pp. 545-553
23
39Evaluation of mungbean genotypes based on yield stability and reaction to mungbean yellow mosaic virus diseaseMahbubul Alam A., Somta P., Jompuk C., Chatwachirawong P., inives P.2014Plant Pathology Journal
30(3),pp. 261-268
23
40Genetically manipulated pineapple: Transgene stability, gene expression and herbicide tolerance under field conditionsSripaoraya S., Keawsompong S., Insupa P., Insupa P., Power J., Davey M., Srinives P.2006Plant Breeding
125(4),pp. 411-413
22
41Identification 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.2014Molecular Breeding
34(3),pp. 1497-1506
22
42Identification of a new fragrance allele in soybean and development of its functional markerJuwattanasomran R., Juwattanasomran R., Somta P., Kaga A., Chankaew S., Shimizu T., Sorajjapinun W., Srinives P.2012Molecular Breeding
29(1),pp. 13-21
21
43Field evaluation of mungbean recombinant inbred lines against mungbean yellow mosaic disease using new disease scale in ThailandAkhtar K.P., Kitsanachandee R., Srinives P., Abbas G., Asghar M.J., Shah T.M., Atta B.M., Chatchawankanphanich O., Sarwar G., Ahmad M., Sarwar N.2009Plant Pathology Journal
25(4),pp. 422-428
21
44Quantitative 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.2013Molecular Breeding
32(1),pp. 121-130
20
45Identification of SSR markers associated with N2-fixation components in soybean [Glycine max (L.) Merr.]Tanya P., Srinives P., Toojinda T., Vanavichit A., Lee S.2005Korean Journal of Genetics
27(4),pp. 351-359
20
46Inheritance of seed phytate in mungbean (Vigna radiata (L.) Wilczek)Sompong U., Kaewprasit C., Nakasathien S., Srinives P.2010Euphytica
171(3),pp. 389-396
19
47Attitudes to biotechnology in AsiaMacer D.R.J., Azariah J., Srinives P.2000International Journal of Biotechnology
2(4),pp. 313-332
19
48Mapping of the genomic regions controlling seed storability in soybean (Glycine max L.)Dargahi H., Tanya P., Srinives P.2014Journal of Genetics
93(2),pp. 365-370
18
49Molecular marker analysis of days to flowering in vegetable soybean (Glycine max (L.) Merrill)Pooprompan P., Wasee S., Toojinda T., Abe J., Chanprame S., Srinives P.2006Kasetsart Journal - Natural Science
40(3),pp. 573-581
18
50Molecular genetic diversity of Bambara groundnut (Vigna subterranea L. Verdc.) revealed by rapd and ISSR marker analysisRungnoi O., Suwanprasert J., Somta P., Srinives P.2012Sabrao Journal of Breeding and Genetics
44(1),pp. 87-101
18
51Genetic diversity and structure of the zombi pea (Vigna vexillata (L.) A. Rich) gene pool based on SSR marker analysisDachapak S., Somta P., Poonchaivilaisak S., Yimram T., Srinives P.2017Genetica
145(2),pp. 189-200
18
52Barley (Hordeum vulgare L.) low phytic acid 1-1: An endosperm-specific, filial determinant of seed total phosphorusRaboy V., Cichy K., Peterson K., Reichman S., Sompong U., Srinives P., Saneoka H.2014Journal of Heredity
105(5),pp. 656-665
17
53QTL mapping for flowering time in different latitude in soybean: QTL mapping for flowering timeLu S., Lu S., Li Y., Wang J., Srinives P., Nan H., Cao D., Wang Y., Li J., Li X., Li X., Fang C., Fang C., Shi X., Shi X., Yuan X., Watanabe S., Feng X., Liu B., Abe J., Kong F.2015Euphytica
206(3),pp. 725-736
17
54Mapping QTL conferring resistance to iron deficiency chlorosis in mungbean [Vigna radiata (L.) Wilczek]Prathet P., Prathet P., Somta P., Srinives P.2012Field Crops Research
137,pp. 230-236
16
55Relationship between fatty acid composition and biodiesel quality for nine commercial palm oilsLamaisri C., Punsuvon V., Chanprame S., Arunyanark A., Srinives P., Liangsakul P.2015Songklanakarin Journal of Science and Technology
37(4),pp. 389-395
16
56A PCR-based marker for a locus conferring aroma in vegetable soybean (Glycine max L.)Arikit S., Arikit S., Yoshihashi T., Wanchana S., Tanya P., Juwattanasomran R., Srinives P., Vanavichit A.2011Theoretical and Applied Genetics
122(2),pp. 311-316
16
57Hybridization technique for bambara groundnutSuwanprasert J., Toojinda T., Srinives P., Chanprame S.2006Breeding Science
56(2),pp. 125-129
16
58Heterosis of agronomic characters in jatropha (Jatropha curcas L.)Tar M., Tar M., Tanya P., Srinives P.2011Kasetsart Journal - Natural Science
45(4),pp. 583-593
15
59Seasonal effects on bunch components and fatty acid composition in dura oil palm (elaeis guineensis)Mhanhmad S., Leewanich P., Punsuvon V., Chanprame S., Srinives P.2011African Journal of Agricultural Research
6(7),pp. 1835-1843
14
60A single recessive gene controls fragrance in cucumber (Cucumis sativus L.)Pramnoi P., Somta P., Chankaew S., Juwattanasomran R., Srinives P.2013Journal of Genetics
92(1),pp. 147-149
14
61Generation 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.2014Sabrao Journal of Breeding and Genetics
46(1),pp. 150-159
13
62Mapping 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.2016Euphytica
207(1),pp. 135-147
13
63RAPD markers linked to resistance to downy mildew disease in soybeanChowdhury A., Srinives P., Saksoong P., Tongpamnak P.2002Euphytica
128(1),pp. 55-60
13
64Ammonia accumulation as an index of glufosinate-tolerant soybean cell linesPornprom T., Surawattananon S., Srinives P.2000Pesticide Biochemistry and Physiology
68(2),pp. 102-106
13
65Inheritance of resistance to iron deficiency and identification of AFLP markers associated with the resistance in mungbean (Vigna radiata (L.) Wilczek)Srinives P., Kitsanachandee R., Kitsanachandee R., Chalee T., Chalee T., Sommanas W., Chanprame S.2010Plant and Soil
335(1),pp. 423-437
12
66Gene mapping of a mutant mungbean (Vigna radiata L.) using new molecular markers suggests a gene encoding a YUC4-like protein regulates the chasmogamous flower traitChen J., Chen J., Somta P., Chen X., Cui X., Yuan X., Srinives P.2016Frontiers in Plant Science
7(June2016)
11
67Identification 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.2016Euphytica
209(1),pp. 199-207
10
68Genetics 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) populationsDuangsong U., Laosatit K., Somta P., Somta P., Srinives P., Srinives P.2018Journal of Genetics
97(5),pp. 1451-1456
10
69QTL analysis of domestication syndrome in zombi pea (Vigna vexillata), an underutilized legume cropDachapak S., Tomooka N., Somta P., Naito K., Kaga A., Srinives P.2018PLoS ONE
13(12)
10
70Inheritance of dwarfiness and erect growth habit in progenies of jatropha curcas × jatropha integerrimaOne K.T., Muakrong N., Phetcharat C., Tanya P., Tanya P., Srinives P., Srinives P.2014Journal of the American Society for Horticultural Science
139(5),pp. 582-586
10
71New microsatellite markers classifying nontoxic and toxic Jatropha curcas.Tanya P., Dachapak S., Tar M., Srinives P.2011Journal of genetics
90(3)
9
72Mapping 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.2017Genes
8(8)
8
73Cytological characterization of an interspecific hybrid in Jatropha and its progeny reveals preferential uniparental chromosome transmission and interspecific translocationFukuhara S., Muakrong N., Muakrong N., Kikuchi S., Tanya P., Tanya P., Tanya P., Sassa H., Koba T., Srinives P., Srinives P., Srinives P.2016Breeding Science
66(5),pp. 838-844
8
74Effect of various carriers and storage temperatures on survival of azotobacter vinelandii NDD-CK-1 in powder inoculantPhiromtan M., Mala T., Srinives P.2013Modern Applied Science
7(6),pp. 81-89
8
75Chasmogamous mutant, a novel character enabling commercial hybrid seed production in mungbeanSorajjapinun W., Srinives P.2011Euphytica
181(2),pp. 217-222
7
76Quantitative trait loci associated with seed weight in mungbean (Vigna radiata (L.) wilczekMahbubul Alam A., Somta P., Muktadir M., Srinives P.2014Kasetsart Journal - Natural Science
48(2),pp. 197-204
7
77Mapping quantitative trait loci for yield-related traits in soybean (Glycine max L)Dargahi H., Tanya P., Somta P., Abe J., Srinives P.2015Breeding Science
64(4),pp. 282-290
7
78Development and characterization of EST-SSR markers from Jatropha curcas EST database and their transferability across jatropha-related species/genusLaosatit K., Tanya P., Saensuk C., Srinives P.2013Biologia (Poland)
68(1),pp. 41-47
7
79Nondestructive measurement of photosynthetic pigments and nitrogen status in jatropha (Jatropha curcas L.) by chlorophyll meterNyi N., Sridokchan W., Chai-Arree W., Srinives P.2012Philippine Agricultural Scientist
95(2),pp. 139-145
7
80Isolation and Characterization of d-myo-inositol-3-phosphate Synthase from Mungbean (Vigna radiata)Wongkaew A., Wongkaew A., Nakasathien S., Nakasathien S., Srinives P.2010Plant Molecular Biology Reporter
28(1),pp. 122-127
7
81Integration of quality protein in waxy maize by means of simple sequence repeat markersSinkangam B., Stamp P., Srinives P., Jompuk P., Mongkol W., Porniyom A., Dang N., Jompuk C.2011Crop Science
51(6),pp. 2499-2504
7
82Estimates of repeatability and path coefficient of bunch and fruit traits in bang boet dura oil palmTanya P., Hadkam Y., Taeprayoon P., Srinives P.2013Journal of Oil Palm Research
25(APR),pp. 108-115
6
83'Kamphaeng saen 1', 'kamphaeng saen 2', and 'kamphaeng saen 3': New ornamental jatropha cultivars derived through an interspecific crossMuakrong N., Tanya P., Srinives P.2014HortScience
49(8),pp. 1083-1085
6
84Interspecific jatropha hybrid as a new promising source of woody biomassMuakrong N., One K., Tanya P., Srinives P.2014Plant Genetic Resources: Characterisation and Utilisation
12(SUPPL. 1)
6
85Candidate 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.2020Plant Science
298
6
86Screening tolerance to phosphorus deficiency and validation of phosphorus uptake 1 (PUP1) gene-linked markers in Thai indigenous upland rice germplasmChankaew S., Monkham T., Pinta W., Sanitchon J., Kaewpradit W., Srinives P., Srinives P.2019Agronomy
9(2)
6
87Comparison of hybrid vigor based on parental distance in SSR markers and agronomic traits in mungbean (Vigna radiata (L.) Wilczek)Sorajjapinun W., Chankaew S., Srinives P.2012Songklanakarin Journal of Science and Technology
34(2),pp. 143-151
6
88Inheritance 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.2017Euphytica
213(8)
5
89Breeding field crops for ornamental purpose: A case in Jatropha sppMuakrong N., Phetcharat C., Tanya P., Srinives P.2014Agrivita
36(3),pp. 229-234
5
90Genetic background of three commercial oil palm breeding populations in Thailand revealed by SSR markersTaeprayoon P., Tanya P., Lee S., Lee S., Srinives P.2015Australian Journal of Crop Science
9(4),pp. 281-288
5
91Genetic architecture of seed yield and yield components in mungbean (Vigna radiata (L.) Wilczek)Khattak G.S.S., Ashraf M., Haq M.A., Srinives P.2002Tropical Agriculture
79(4),pp. 260-264
5
92Development of interspecific and intergeneric hybrids among jatropha-related species and verification of the hybrids using EST-SSR markersLaosatit K., Tanya P., Tanya P., Muakrong N., Srinives P., Srinives P.2014Plant Genetic Resources: Characterisation and Utilisation
12(SUPPL. 1)
5
93De novo Transcriptome Analysis of Apical Meristem of Jatropha spp. Using 454 Pyrosequencing Platform, and Identification of SNP and EST-SSR MarkersLaosatit K., Tanya P., Tanya P., Somta P., Ruang-areerate P., Sonthirod C., Tangphatsornruang S., Juntawong P., Srinives P., Srinives P.2016Plant Molecular Biology Reporter
34(4),pp. 786-793
5
94Genetic distance and heterotic pattern among single cross hybrids within waxy maize (Zea mays L.)Boonlertnirun K., Srinives P., Sarithniran P., Jompuk C.2012Sabrao Journal of Breeding and Genetics
44(2),pp. 382-397
4
95Genetic identification of garlic cultivars and lines by using rapd assayXu P., Liu H., Gao Z., Srinives P., Yang C.2001Acta Horticulturae
555,pp. 213-220
4
96Overcoming crossing barriers between jatropha (Jatropha curcas L.) and castor bean (Ricinus communis L.)Laosatit K., Mokrong N., Tanya P., Srinives P.2017Crop Breeding and Applied Biotechnology
17(2),pp. 164-167
4
97Physicochemical properties of seeds and oil from an F2 population of Jatropha curcas x Jatropha integerrimaOne K.T., Muakrong N., Tanya P., Valette J., Girard P., Srinives P.2014ScienceAsia
40(6),pp. 428-435
4
98Dissecting 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.2014Agrivita
36(2),pp. 101-111
4
99QTLs 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.2015Agrivita
37(2),pp. 159-168
4
100Genetic diversity and population structure of Vigna exilis and Vigna grandiflora (Phaseoleae, Fabaceae) from Thailand based on microsatellite variationKaewwongwal A., Jetsadu A., Somta P., Chankaew S., Srinives P.2013Botany
91(10),pp. 653-661
4
101Detection of quantitative trait loci for seed size traits in soybean (Glycine max L.)Dargahi H., Tanya P., Srinives P.2015Kasetsart Journal - Natural Science
49(6),pp. 832-843
3
102Effect of leaflet size and number on agronomic and physiological traits of mungbeanSriphadet S., Kasemsap P., Srinives P.2010Journal of Agricultural Science
148(3),pp. 353-361
3
103Evaluation of transgene stability, gene expression and herbicide tolerance of genetically modified pineapple under field conditionsSripaoraya S., Davey M., Power J., Keawsompong S., Insupa P., Srinives P.2006Acta Horticulturae
702,pp. 37-40
3
104Phenotypic and genotypic variability of F2 plants derived from Jatropha curcas×integerrima hybridOne K., One K., Tanya P., Muakrong N., Laosatit K., Srinives P.2014Biomass and Bioenergy
67,pp. 137-144
3
105Genotype by environment interaction of jatropha (Jatropha Curcas L.) grown from seedlings vs cuttingsTar M., Nyi N., Tanya P., Srinives P.2011Thai Journal of Agricultural Science
44(2),pp. 71-79
2
106Isolation and characterization of purple acid phosphatase gene during seedling development in mungbeanWongkaew A., Wongkaew A., Srinives P., Nakasathien S., Nakasathien S.2013Biologia Plantarum
57(2),pp. 267-273
2
107Effects of the multiple leaflet gene on agronomical and physiological characters of mungbean (Vigna radiata)Kowsurat S., Srinives P., Kasemsap P., Lamseejan S.1999Journal of Agricultural Science
133(3),pp. 321-324
2
108Conservation and variation of 35S Ribosomal DNA among five jatropha species revealed by Fluorescence In Situ HybridizationMuakrong N., Muakrong N., Kikuchi S., Tanya P., Tanya P., Srinives P., Srinives P.2018Cytologia
83(1),pp. 57-61
2
109Genome-wide SSR marker development in oil palm by Illumina HiSeq for parental selectionTaeprayoon P., Tanya P., Kang Y., Limsrivilai A., Lee S., Lee S., Srinives P.2016Plant Genetic Resources: Characterisation and Utilisation
14(2),pp. 157-160
2
110Inflorescence meristem culture and economic analysis of virus-free garlic (Allium sativum L.) in commercial productionXu P., Yang C., Qu S., Yang C., Srinives P.2001Acta Horticulturae
555,pp. 283-288
2
111The 12th SABRAO congress on plant breeding. Towards 2025: Challenges in a rapidly changing worldCollard B., Jogloy S., Lertrat K., Redoña E., Srinives P.2013Sabrao Journal of Breeding and Genetics
45(1),pp. 1-5
2
112The genetics of pandan-like fragrance, 2-acetyl-1-pyrroline, in cropsSomta P., Kuswanto K., Srinives P., Srinives P.2019Agrivita
41(1),pp. 10-22
2
113Detection 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.2019Euphytica
215(12)
2
114Editorial: Domestication of Agronomic Traits in Legume CropsChen X., Zhou G., Pang J., Srinives P.2021Frontiers in Genetics
12
1
115Genetic potential of agronomic traits and seed physicochemical properties of novel jatropha lines developed from complex interspecific hybridizationMuakrong N., Srinives P., Srinives P.2020Agrivita
42(1),pp. 92-109
1
116Cross-species amplification of microsatellite markers in Bambara groundnut (Vigna subterranea) and their application in diversity studySomta P., Chankaew S., Srinives P., Rungnoi O.2013Acta Horticulturae
979,pp. 431-436
1
117Molecular cloning and expression analysis of the pathogenesis-related gene VaPR2 in azuki bean (Vigna angularis)Xin C., Volkaert H., Chatwachirawong P., Srinives P.2010ScienceAsia
36(1),pp. 72-75
1
118Two jatropha karyotypes constructed from meiotic pachytene chromosomes: Pericentric distribution of heterochromatin and variation in repetitive DNAsMuakrong N., Muakrong N., Muakrong N., Kikuchi S., Fukuhara S., Tanya P., Srinives P., Srinives P.2018PLoS ONE
13(12)
1
119Inheritance and AFLP tagging of leaflet mutants in mungbean (Vigna radiata (L.) Wilczek)Soehendi R., Soehendi R., Chanprame S., Toojinda T., Srinives P.2006Kasetsart Journal - Natural Science
40(3),pp. 566-572
1
120Optimization of transient β-glucuronidase (gus) gene expression in teak (tectona grandis L.f.) by agrobacterium tumefaciens-mediated transformation systemSontikun Y., Sontikun Y., Sontikun Y., Chanprame S., Srinives P., Chanprame S.2013Journal of the International Society for Southeast Asian Agricultural Sciences
19(2),pp. 49-57
1
121New microsatellite markers classifying nontoxic and toxic Jatropha curcasTanya P., Dachapak S., Tar M., Srinives P.2013Journal of Genetics
92,pp. 76-78
1
122Evaluation of N2 fixation traits in Thai and Korean soybean cultivarsTanya P., Srinives P., Toojinda T., Vanavichit A., Nuntakij A., Kotepong S., Lee S.H.2006ScienceAsia
32(1),pp. 93-98
0
123Identification of QTLs controlling major fatty acid contents in soybean seedMoongkanna J., Moongkanna J., Pantalone V., Burton J., Toojinda T., Nakasathien S., Nakasathien S., Nakasathien S., Srinives P., Srinives P.2011Sabrao Journal of Breeding and Genetics
43(2),pp. 226-240
0
124Inheritance of qualitative traits and heterosis in bambara groundnut (Vigna subterranea (L.) verde.)Suwanprasert J., Srinives P., Toojinda T., Chanprame S.2007Korean Journal of Genetics
29(3),pp. 285-290
0
125Photooxidation response as a method to screen for drought tolerance in azuki bean (Vigna angularis (Willd.) Ohwi & Ohachi) germplasmXin C., Xin C., Srinives P.2009Chiang Mai University Journal of Natural Sciences
8(2),pp. 239-245
0
126Structures of the agriculture environmental system of cassava in Khao Hin Sorn Royal Development Study Center areaManeekul T., Tanamai S., Tangtham N., Srinives P.2010Kasetsart Journal - Social Sciences
31(2),pp. 220-230
0
127Network modeling for forecasting cassava yield in Khao Hin Sorn Royal Development Study Center areaManeekul T., Tanamai S., Tangtham N., Srinives P.2010Kasetsart Journal - Social Sciences
31(3),pp. 346-355
0
128F1 hybrid pineapple resistant to bialaphos herbicideSripaoraya S., Srinives P., Davey M.R.2011Acta Horticulturae
902,pp. 201-208
0
129Evaluation of wheat mutants for thermo-stability through physiological parametersKhattak G., Parry M., Andralojc P., Srinives P., Saeed I.2014Sabrao Journal of Breeding and Genetics
46(1),pp. 112-119
0
130Prebreeding and genetic enhancement in jatropha through interspecific hybridizationLaosatit K., Kikuchi S., Muakrong N., Srinives P.2019Jatropha, Challenges for a New Energy Crop: Volume 3: A Sustainable Multipurpose Crop
,pp. 63-78
0
131Genetic diversity of zombi pea (Vigna vexillata) assessed by microsatellite markersSomta P., Dachapak S., Yimram T., Srinives P., Poonchaivilaisak S.2019Acta Horticulturae
1241,pp. 143-149
0
132Genetic diversity and population structure of pencil yam (Vigna lanceolata) (Phaseoleae, Fabaceae), a wild herbaceous legume endemic to Australia, revealed by microsatellite markersNubankoh P., Pimtong S., Somta P., Dachapak S., Srinives P.2015Botany
93(3),pp. 183-191
0