Zobrazeno 1 - 10
of 14
pro vyhledávání: '"Tippapha Pisithkul"'
Autor:
Tippapha Pisithkul, Jeremy W. Schroeder, Edna A. Trujillo, Ponlkrit Yeesin, David M. Stevenson, Tai Chaiamarit, Joshua J. Coon, Jue D. Wang, Daniel Amador-Noguez
Publikováno v:
mBio, Vol 10, Iss 3 (2019)
ABSTRACT Biofilms are structured communities of tightly associated cells that constitute the predominant state of bacterial growth in natural and human-made environments. Although the core genetic circuitry that controls biofilm formation in model ba
Externí odkaz:
https://doaj.org/article/531ca265dec64ba28248243c75ac6d3f
Autor:
Grace Kwan, Brett Plagenz, Kimberly Cowles, Tippapha Pisithkul, Daniel Amador-Noguez, Jeri D. Barak
Publikováno v:
Frontiers in Microbiology, Vol 9 (2018)
The human enteric pathogen Salmonella enterica leads a cross-kingdom lifestyle, actively colonizing and persisting on plants in between animal hosts. One of the questions that arises from this dual lifestyle is how S. enterica is able to adapt to suc
Externí odkaz:
https://doaj.org/article/4868e943cc9940a48ae164b9dcbcf9be
Autor:
Daniel E. Agnew, Kelly M. Wetmore, Tippapha Pisithkul, Ryan L. Clark, Daniel Amador-Noguez, Morgan N. Price, Jacqueline M. Rand, Joshua M. Thiede, Christopher R. Mehrer, Yumi Suh, Andrew L. Markley, Candace E. Campbell, Adam P. Arkin, Brian F. Pfleger, Adam M. Deutschbauer, Jayashree Ray
Publikováno v:
Nature microbiology
Rand, JM; Pisithkul, T; Clark, RL; Thiede, JM; Mehrer, CR; Agnew, DE; et al.(2017). A metabolic pathway for catabolizing levulinic acid in bacteria. Nature Microbiology, 2(12), 1624-1634. doi: 10.1038/s41564-017-0028-z. Lawrence Berkeley National Laboratory: Retrieved from: http://www.escholarship.org/uc/item/7wj2z10w
Rand, JM; Pisithkul, T; Clark, RL; Thiede, JM; Mehrer, CR; Agnew, DE; et al.(2017). A metabolic pathway for catabolizing levulinic acid in bacteria. Nature Microbiology, 2(12), 1624-1634. doi: 10.1038/s41564-017-0028-z. Lawrence Berkeley National Laboratory: Retrieved from: http://www.escholarship.org/uc/item/7wj2z10w
© 2017 The Author(s). Microorganisms can catabolize a wide range of organic compounds and therefore have the potential to perform many industrially relevant bioconversions. One barrier to realizing the potential of biorefining strategies lies in our
Autor:
Jeremy W. Schroeder, Daniel Amador-Noguez, Jue D. Wang, Joshua J. Coon, Ponlkrit Yeesin, David M. Stevenson, Edna A. Trujillo, Tippapha Pisithkul, Tai Chaiamarit
Publikováno v:
mBio, Vol 10, Iss 3 (2019)
mBio
mBio, Vol 10, Iss 3, p e00623-19 (2019)
mBio
mBio, Vol 10, Iss 3, p e00623-19 (2019)
Bacterial biofilms are ubiquitous in natural environments and play an important role in many clinical, industrial, and ecological settings. Although much is known about the transcriptional regulatory networks that control biofilm formation in model b
Autor:
Tsokyi Choera, Philipp Wiemann, Pin-Mei Wang, Daniel Amador-Noguez, Tippapha Pisithkul, Nancy P. Keller
Publikováno v:
Fungal Genetics and Biology. 89:102-113
Small peptides formed from non-ribosomal peptide synthetases (NRPS) are bioactive molecules produced by many fungi including the genus Aspergillus. A subset of NRPS utilizes tryptophan and its precursor, the non-proteinogenic amino acid anthranilate,
Autor:
Melanie A. Spero, Tippapha Pisithkul, Jordan T. Mollet, Joshua R. Brickner, Daniel Amador-Noguez, Timothy J. Donohue
Publikováno v:
Journal of Bacteriology
NADH:quinone oxidoreductase (complex I) is a bioenergetic enzyme that transfers electrons from NADH to quinone, conserving the energy of this reaction by contributing to the proton motive force. While the importance of NADH oxidation to mitochondrial
Autor:
Waracharee Srifa, Anja Forche, Norma V. Solis, Eric W. Jeffery, Darren Abbey, Scott G. Filler, Gareth A. Cromie, Tippapha Pisithkul, Aleeza C. Gerstein, Judith Berman, Aimée M. Dudley
Publikováno v:
Genetics, vol 209, iss 3
In vitro studies suggest that stress may generate random standing variation and that different cellular and ploidy states may evolve more rapidly under stress. Yet this idea has not been tested with pathogenic fungi growing within their host niche in
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::e055d71edf80222fbc7fd5840b8047e8
https://escholarship.org/uc/item/7r01d4gs
https://escholarship.org/uc/item/7r01d4gs
Autor:
Anja Forche, Waracharee Srifa, Scott G. Filler, Aleeza C. Gerstein, Aimée M. Dudley, Gareth A. Cromie, Norma V. Solis, Eric W. Jeffery, Judith Berman, Tippapha Pisithkul
In vitro studies suggest that stress may generate random standing variation, and that different cellular and ploidy states may evolve more rapidly under stress. Yet this idea has not been tested with pathogenic fungi growing within their host niche i
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::4bcc0305c21cf8c0dfb5782793b2935d
Autor:
Grace, Kwan, Brett, Plagenz, Kimberly, Cowles, Tippapha, Pisithkul, Daniel, Amador-Noguez, Jeri D, Barak
Publikováno v:
Frontiers in Microbiology
The human enteric pathogen Salmonella enterica leads a cross-kingdom lifestyle, actively colonizing and persisting on plants in between animal hosts. One of the questions that arises from this dual lifestyle is how S. enterica is able to adapt to suc
Publikováno v:
Current Opinion in Microbiology. 24:29-37
In order to survive and compete in natural settings, bacteria must excel at quickly adapting their metabolism to fluctuations in nutrient availability and other environmental variables. This necessitates fast-acting post-translational regulatory mech