อนงค์ภัทร สุทธางคกูล
ผู้ช่วยศาสตราจารย์
ภาควิชาพันธุศาสตร์ คณะวิทยาศาสตร์ บางเขน
fsciapsu@ku.ac.th
0-2562-5555ต่อ4218
EDUCATION
- วท.บ.(Biology), California Institute of Technology, สหรัฐอเมริกา, 2545
- Ph.D.(Genetics), University of Wisconsin-Madison, สหรัฐอเมริกา, 2551
RESOURCE
แหล่งที่มา
ผลงาน
Works
INTEREST
ความสนใจ
Protein degradation, Autophagy, Plant molecular genetics, cell wall biosynthesis
Expertise Cloud
ความเชี่ยวชาญ
Person
Relationship
นักวิจัย
ที่มีผลงานมากที่สุด 10 คนแรก
Scopus
h-index
h-index: 12
| # | Document title | Authors | Year | Source | Cited by |
|---|---|---|---|---|---|
| 1 | Autophagic nutrient recycling in Arabidopsis directed by the ATG8 and ATG12 conjugation pathways | Thompson A., Doelling J., Doelling J., Suttangkakul A., Vierstra R. | 2005 | Plant Physiology, 138(4), pp. 2097-2110 | 482 |
| 2 | Biosynthesis of pectin | Harholt J., Suttangkakul A., Suttangkakul A., Scheller H.V., Scheller H.V. | 2010 | Plant Physiology, 153(2), pp. 384-395 | 457 |
| 3 | The ATG1/ATG13 protein kinase complex is both a regulator and a target of autophagic recycling in Arabidopsis | Suttangkakul A., Suttangkakul A., Li F., Chung T., Vierstra R. | 2011 | Plant Cell, 23(10), pp. 3761-3779 | 263 |
| 4 | The ATG12-conjugating enzyme ATG10 is essential for autophagic vesicle formation in Arabidopsis thaliana | Phillips A., Phillips A., Suttangkakul A., Vierstra R. | 2008 | Genetics, 178(3), pp. 1339-1353 | 251 |
| 5 | The ATG autophagic conjugation system in maize: ATG transcripts and abundance of the ATG8-lipid adduct are regulated by development and nutrient availability | Chung T., Suttangkakul A., Vierstra R. | 2009 | Plant Physiology, 149(1), pp. 220-234 | 183 |
| 6 | Engineering of plants with improved properties as biofuels feedstocks by vessel-specific complementation of xylan biosynthesis mutants | Petersen P.D., Petersen P.D., Petersen P.D., Lau J., Lau J., Ebert B., Ebert B., Yang F., Yang F., Verhertbruggen Y., Verhertbruggen Y., Kim J.S., Kim J.S., Varanasi P., Varanasi P., Suttangkakul A., Suttangkakul A., Suttangkakul A., Auer M., Auer M., Loqu? D., Loqu? D., Scheller H.V., Scheller H.V., Scheller H.V. | 2012 | Biotechnology for Biofuels, 5, 84 | 94 |
| 7 | The plant glycosyltransferase clone collection for functional genomics | Lao J., Oikawa A., Bromley J.R., McInerney P., McInerney P., Suttangkakul A., Smith-Moritz A.M., Plahar H., Chiu T.Y., Gonz?lez Fern?ndez-Ni?o S.M., Ebert B., Yang F., Christiansen K.M., Hansen S.F., Stonebloom S., Adams P.D., Adams P.D., Ronald P.C., Ronald P.C., Hillson N.J., Hadi M.Z., Hadi M.Z., Vega-S?nchez M.E., Loqu? D., Scheller H.V., Scheller H.V., Heazlewood J.L. | 2014 | Plant Journal, 79(3), pp. 517-529 | 61 |
| 8 | De novo transcriptome analysis and gene expression profiling of an oleaginous microalga Scenedesmus acutus TISTR8540 during nitrogen deprivation-induced lipid accumulation | Sirikhachornkit A., Suttangkakul A., Vuttipongchaikij S., Juntawong P. | 2018 | Scientific Reports, 8(1), 3668 | 45 |
| 9 | Increasing the triacylglycerol content in dunaliella tertiolecta through isolation of starch-deficient mutants | Sirikhachornkit A., Vuttipongchaikij S., Suttangkakul A., Yokthongwattana K., Juntawong P., Pokethitiyook P., Pokethitiyook P., Kangvansaichol K., Meetam M., Meetam M. | 2016 | Journal of Microbiology and Biotechnology, 26(5), pp. 854-866 | 25 |
| 10 | Effects of sequence and expression of eight anthocyanin biosynthesis genes on floral coloration in four dendrobium hybrids | Kriangphan N., Vuttipongchaikij S., Kittiwongwattana C., Suttangkakul A., Pinmanee P., Sakulsathaporn A., Sakulsathaporn A., Suwimon R., Suputtitada S., Chanvivattana Y., Apisitwanich S., Apisitwanich S. | 2015 | Horticulture Journal, 84(1), pp. 83-92 | 23 |
| 11 | Evaluation of strategies for improving the transgene expression in an oleaginous microalga Scenedesmus acutus | Suttangkakul A., Sirikhachornkit A., Juntawong P., Puangtame W., Chomtong T., Srifa S., Sathitnaitham S., Dumrongthawatchai W., Jariyachawalid K., Vuttipongchaikij S. | 2019 | BMC Biotechnology, 19(1), 4 | 21 |
| 12 | Cassava root crown phenotyping using three-dimension (3D) multi-view stereo reconstruction | Sunvittayakul P., Kittipadakul P., Wonnapinij P., Chanchay P., Wannitikul P., Sathitnaitham S., Phanthanong P., Changwitchukarn K., Suttangkakul A., Ceballos H., Ceballos H., Vuttipongchaikij S. | 2022 | Scientific Reports, 12(1), 10030 | 15 |
| 13 | Growth modulation effects of CBM2a under the control of AtEXP4 and CaMV35S promoters in Arabidopsis thaliana, Nicotiana tabacum and Eucalyptus camaldulensis | Keadtidumrongkul P., Suttangkakul A., Pinmanee P., Pattana K., Kittiwongwattana C., Apisitwanich S., Apisitwanich S., Vuttipongchaikij S. | 2017 | Transgenic Research, 26(4), pp. 447-463 | 7 |
| 14 | Gel-permeation chromatography–enzyme-linked immunosorbent assay method for systematic mass distribution profiling of plant cell wall matrix polysaccharides | Sathitnaitham S., Suttangkakul A., Wonnapinij P., McQueen-Mason S.J., Vuttipongchaikij S. | 2021 | Plant Journal | 6 |
| 15 | Gel purification of gDNA for next-generation sequencing applications | Utthiya S., Wonnapinij P., Napaumpaiporn P., Kittiwongwattana C., Sakulkoo J., Suttangkakul A., Vuttipongchaikij S. | 2022 | BioTechniques, 73(2), pp. 99-103 | 2 |
| 16 | Evaluation of cucumber UBL5 promoter as a tool for transgene expression and genome editing in plants | Taway K., Dachphun I., Vuttipongchaikij S., Suttangkakul A. | 2023 | Transgenic Research | 2 |
| 17 | Genome-Wide Association Studies of Three-Dimensional (3D) Cassava Root Crowns and Agronomic Traits Using Partially Inbred Populations | Sunvittayakul P., Wonnapinij P., Chanchay P., Wannitikul P., Sathitnaitham S., Phanthanong P., Changwitchukarn K., Suttangkakul A., Ceballos H., Gomez L.D., Kittipadakul P., Vuttipongchaikij S. | 2024 | Agronomy, 14(3), 591 | 2 |
| 18 | Assessment of soil bacterial diversity in long-term cultivation of virus-resistant GM papaya | Thongrak K., Wonnapinij P., Swatdipong A., Vuttipongchaikij S., Suttangkakul A. | 2024 | Plant and Soil | 1 |
| 19 | Alternative splicing regulates autophagy in response to environmental stresses in cucumber (Cucumis sativus) | Thanapipatpong P., Vuttipongchaikij S., Chomtong T., Puangtame W., Napaumpaipond P., Gomez L.D., Suttangkakul A. | 2023 | All Life, 16(1), 2195987 | 1 |
| 20 | Disruption of a DUF247 Containing Protein Alters Cell Wall Polysaccharides and Reduces Growth in Arabidopsis | Wannitikul P., Wattana-Amorn P., Sathitnaitham S., Sakulkoo J., Suttangkakul A., Wonnapinij P., Bassel G.W., Simister R., Gomez L.D., Vuttipongchaikij S. | 2023 | Plants, 12(10), 1977 | 1 |
| 21 | Assessing DNA extraction methods for metagenomic analysis from crop soil in Thailand | Rinrid K., Wonnapinij P., Vuttipongchaikij S., Shutsrirung A., Suttangkakul A. | 2022 | Agriculture and Natural Resources, 56(4), pp. 797-804 | 1 |
| 22 | Erratum: The ATG1/ATG13 Protein Kinase Complex Is Both a Regulator and a Target of Autophagic Recycling in Arabidopsis(The Plant Cell (2021) 33 (3743-3744) DOI: 10.1105/tpc.111.090993) | Suttangkakul A., Li F., Chung T., Vierstra R.D. | 2021 | Plant Cell, 33(12), pp. 3743-3744 | 1 |
| 23 | An efficient method for isolating large quantity and high quality RNA from oleaginous microalgae for transcriptome sequencing | Suttangkakul A., Juntawong P., Sirikhachornkit A., Yaisumlee C., Jariyachawalid K., Kangwansaichol K., Apisitwanich S., Vuttipongchaikij S. | 2016 | Plant OMICS, 9(2), pp. 126-135 | 1 |
| 24 | RNA editing in the chloroplast of asian palmyra palm (Borassus flabellifer) | Sakulsathaporn A., Sakulsathaporn A., Sakulsathaporn A., Wonnapinij P., Suttangkakul A., Apisitwanich S., Apisitwanich S., Apisitwanich S., Vuttipongchaikij S. | 2019 | Genetics and Molecular Biology, 42(4), e20180371 | 1 |
| 25 | Anthranilic Acid Accumulation in Saccharomyces cerevisiae Induced by Expression of a Nonribosomal Peptide Synthetase Gene from Paecilomyces cinnamomeus BCC 9616 | Promsuk G., Vuttipongchaikij S., Prommarit K., Suttangkakul A., Lazarus C.M., Wonnapinij P., Wattana-Amorn P. | 2022 | ChemBioChem, e202200573 | 0 |
| 26 | Effects of CRISPR/Cas9 generated drooping leaf (dl) alleles on midrib and carpel formations in Oryza sativa Nipponbare | Janthabut T., Tristianto C., Sakulkoo J., Sunvittayakul P., Suttangkakul A., Gomez L.D., Vuttipongchaikij S., Sakulsingharoj C. | 2022 | Planta, 256(3), 61 | 0 |
| 27 | Comparative of the complete chloroplast genome and RNA editing of Eucalyptus camaldulensis T5 clone, an elite variety in Thailand | Racharak P., Suttangkakul A., Vuttipongchaikij S. | 2023 | Biodiversitas, 24(7), pp. 3774-3784 | 0 |
| 28 | In Vivo Proximity Cross-Linking and Immunoprecipitation of Cell Wall Epitopes Identify Proteins Associated with the Biosynthesis of Matrix Polysaccharides | Wannitikul P., Dachphun I., Sakulkoo J., Suttangkakul A., Wonnapinij P., Simister R., Gomez L.D., Vuttipongchaikij S. | 2024 | ACS Omega, 9(29), pp. 31438-31454 | 0 |
| 29 | Cell wall polysaccharides determine cooking quality in cassava roots | Sathitnaitham S., Ceballos H., Wonnapinij P., Kraichak E., Utthiya S., Suttangkakul A., Gomez L.D., Kittipadakul P., Siriwong N., Kongsil P., Vuttipongchaikij S. | 2024 | Plants People Planet | 0 |
| 30 | Genome-wide association studies unveils the genetic basis of cell wall composition and saccharification of cassava pulp | Sunvittayakul P., Sunvittayakul P., Wonnapinij P., Wannitikul P., Phanthanong P., Changwitchukarn K., Suttangkakul A., Utthiya S., Phraemuang A., Kongsil P., Prommarit K., Ceballos H., Gomez L.D., Kittipadakul P., Vuttipongchaikij S. | 2025 | Plant Physiology and Biochemistry, 218, 109312 | 0 |
| 31 | Assessment of soil bacterial diversity in long-term cultivation of virus-resistant GM papaya | Thongrak K., Wonnapinij P., Swatdipong A., Vuttipongchaikij S., Suttangkakul A. | 2025 | Plant and Soil, 508(1), pp. 499-513 | 0 |