เพศ (สถานะภาพ)
ชาย (สมรส)

สัญชาติ
ไทย

ศาสนา
พุทธ

วันเกิด (อายุ)
02-กันยายน-2526    อายุ 39ปี

ส่วนสูง/น้ำหนัก
171 Cm    หนัก 75 Kg

สถานะภาพทางทหาร
ผ่านเกณฑ์

จังหวัด (เขต)
นครราชสีมา (เฉลิมพระเกียรติ, เมืองนครราชสีมา)

การติดต่อที่สะดวก
โทรศัพท์ , Email

สาขาวิชาชีพ
เทคโนโลยีชีวภาพ/Biotech

ลักษณะงานที่ต้องการ
งานประจำ (Full Time)

ระดับเงินเดือนที่ต้องการ
65,000บาท ขึ้นไป

แก้ไขข้อมูลล่าสุด
30 มิ.ย. 2564

เข้าระบบครั้งสุดท้าย
20 ธ.ค. 2564

การศึกษา จบการศึกษาแล้ว ในปี พศ. ไม่ได้ระบุ

ประสบการณ์ทำงานทั้งหมด 6 ปี

พิมพ์ดีด
ไทย 30 คำ/นาที    อังกฤษ 45 คำ/นาที

ความสามารถการขับขี่
รถยนต์ ,

ยานพาหนะส่วนตัว
รถยนต์ ,

โครงการ/ผลงาน
ผลงานตีพิมพ์วารสารวิชาการระดับนานาชาติ
1.Piromyou, P. and Songwattana, P., Boonchuen, P., Nguyen, HP., Manassila, M., Teamtisong, K., Tittabutr, P., Boonkerd, N., Giraud, E., and Teaumroong, N. (2021). New Putative Type 3 Effector (SkP48) of Bradyrhizobium sp. DOA9 and Its Roles in Legume Nodulation Signaling. Manuscript preparation

2.Piromyou, P. and Nguyen, HP., Songwattana, P., Boonchuen, P., Teamtisong, K., Tittabutr, P., Boonkerd, N., Alisha Tantasawat, P., Göttfert, M., Okazaki, S., and Teaumroong, N. (2021). The Bradyrhizobium diazoefficiens type III effector NopE modulates the regulation of plant hormones towards nodulation in Vigna radiata. Scientific reports. Submitted/revision

3.Songwattana, P., Chaintreuil, C., Wongdee, J., Teulet, A., Mbaye, M., Piromyou, P., Gully, D., Fardoux, J., Zoumman, A M A., Camuel, A., Tittabutr, P., Teaumroong., N., and Giraud, E. (2021). Identification of type III effectors modulating the symbiotic properties of Bradyrhizobium vignae strain ORS3257 with various Vigna species. Scientific reports. 11,4874.

4.Witchayapong, C., Piromyou, P., Boontawan, P., Tittabutr, P., and Boontawan, A. (2021). Investigation of microbial community structure and its potential for biomethane production by co-digestion of cassava pulp and distillery stillage. Environmental Progress & Sustainable Energy. 2021;e13695.

5.Greetatorn, T., Hashimoto, S., Maeda, T., Fukudome, M., Piromyou, P., Teamtisong, K., Tittabutr, P., Boonkerd, N., Kawaguchi, M., Uchiumi, T., and Teaumroong., N. (2020). Mechanisms of Rice Endophytic Bradyrhizobial Cell Differentiation and Its Role in Nitrogen Fixation. Microbes and Environment. 35(3), 2020.

6.Hashimoto, S., Goto, K., Piromyou, P., Songwattana, P., Greetatorn, T., Tittabutr, P., Boonkerd, N., Teaumroong, N., and Uchiumi., T. (2020). Type III Secretion System of Bradyrhizobium sp. SUTN9-2 Obstructs Symbiosis with Lotus spp. Microbes and Environment. 35(3), 2020.

7.Piromyou, P., Songwattana, P., Teamtisong, K., Tittabutr, P., Boonkerd, N., Alisha Tantasawat, P., Giraud, E., Göttfert, M., and Teaumroong, N. (2019). Mutualistic co-evolution of T3SSs during the establishment of symbiotic relationships between Vigna radiata and Bradyrhizobia. MicrobiologyOpen. 2019;e781.

8.Boonanuntanasarn, S., Tiengtam, N., Pitaksong, T., Piromyou, P., and Teaumroong, N. (2018). Effects of dietary inulin and Jerusalem artichoke (Helianthus tuberosus) on intestinal microbiota community and morphology of Nile tilapia (Oreochromis niloticus) fingerlings. Aquaculture Nutrition. 24, 712–722.

9.Piromyou, P., Greetatorn, T., Teamtisong, K., Tittabutr, P., Boonkerd, N., and Teaumroong, N. (2017). Potential of rice stubble as a reservoir of bradyrhizobial inoculum in rice–legume crop rotation. Applied and Environmental Microbiology. 83 (22) e01488-17.

10.Songwattana, P., Noisangiam, R., Teamtisong, K., Prakamhang, J., Teulet, A., Tittabutr, P., Piromyou, P., Boonkerd, N., Giraud, E., and Teaumroong, N. (2017). Type 3 Secretion System (T3SS) of Bradyrhizobium sp. DOA9 and its Roles in Legume Symbiosis and Rice Endophytic Association. Frontiers in Microbiology. 8, 1810.

11.Okubo, T., Piromyou P., Tittabutr, P., Teaumroong, N., and Minamisawa, K. (2016). Origin and Evolution of Nitrogen Fixation Genes on Symbiosis Islands and Plasmid in Bradyrhizobium. Microbes and Environment. 31, 260-267.

12.Piromyou, P., Songwattana P., Greetatorn, T., Okubo, T., Kakizaki K C., Prakamhand J., Tittabutr, P., Boonkerd, N., Teaumroong N., and Minamisawa, K.(2015) . The Type III Secretion System (T3SS) is a Determinant for Rice-Endophyte Colonization by Non-Photosynthetic Bradyrhizobium. Microbes and Environments. 30, 291–300.

13.Piromyou, P., Greetatorn, T., Teamtisong, K., Okubo, T., Shinoda, R., Nuntakij, A., Tittabutr, P., Boonkerd, N., Minamisawa, K., and Teaumroong, N. (2015). Preference of endophytic bradyrhizobia in different rice cultivars and the implication of rice endophyte evolution. Applied and Environmental Microbiology. 81, 3049 –3061.

14.Teamtisong, K., Songwattana, P., Noisa-Ngiam, R., Piromyou, P., Boonkerd, N., Tittabutr, P., Minamisawa, K., Nantakit, A., Okazaki, S., Abe, M., Uchiumi, T., and Teaumroong, N. (2014). Divergent Nod-containing Bradyrhizobium sp. DOA9 with a megaplasmid and its host range. Microbes and Environments. 29, 370-376.

15.Tittabutr, P., Piromyou, P., Longtonglang, A., Noisa-Ngiam, R., Boonkerd, N., Teaumroong, N. (2013). Alleviation of the effect of environmental stresses using co-inoculation of mungbean by Bradyrhizobium and rhizobacteria containing stress-induced ACC deaminase enzyme. Soil Science and Plant Nutrition 59, 559-571.

16.Piromyou, P., Noisangiam, R., Uchiyama, H., Tittabutr, P., Boonkerd, N., Teaumroong, N. (2013). Indigenous Microbial Community Structure in Rhizosphere of Chinese Kale as Affected by Plant Growth-Promoting Rhizobacteria Inoculation. Pedosphere 23, 577-592.

17.Aung, T.T., Buranabanyat, B., Piromyou, P., Longtonglang, A., Tittabutr, P., Boonkerd, N., Teaumroong, N. (2013). Enhanced soybean biomass by co-inoculation of Bradyrhizobium japonicum and plant growth promoting rhizobacteria and its effects on microbial community structures. African Journal of Microbiology Research 7, 3858-3873.

18.Piromyou, P., Buranabanyat, B., Tantasawat, P., Tittabutr, P., Boonkerd, N., Teaumroong, N. (2011). Effect of plant growth promoting rhizobacteria (PGPR) inoculation on microbial community structure in rhizosphere of forage corn cultivated in Thailand. European Journal of Soil Biology 47, 44-54.