Zobrazeno 1 - 10
of 15
pro vyhledávání: '"Munkhtsetseg, Tsednee"'
Autor:
Munkhtsetseg Tsednee
Publikováno v:
Mongolian Journal of Chemistry, Vol 24, Iss 50, Pp i-i (2023)
No abstract in English
Externí odkaz:
https://doaj.org/article/7c343fbbdd7e425aa083d9d81b6922f4
Publikováno v:
Plant and Cell Physiology. 63:1242-1252
NGATHA-Like 1 (NGAL1) transcription factor has been identified as a gene regulated through AUG-stop-mediated boron (B)-dependent translation stall; however, its function in B response remains unknown. Here, we show that NGAL1 plays an important role
Publikováno v:
Yeast. 37:638-646
Under high boron (B) conditions, nodulin 26-like intrinsic protein 5;1 (NIP5;1) mRNA, a boric acid channel, is destabilized to avoid excess B entry into roots of Arabidopsis thaliana. In this regulation, the minimum upstream open reading frame (uORF)
Autor:
Brianne E. Lewis, Timothy L. Stemmler, Madeli Castruita, Sayani Das, Christina Ramon, Marisa S. Otegui, Kaustav Khatua, Brian M. Hoffman, Kristen Holbrook, Peter K. Weber, Stefan Schmollinger, Si Chen, Jennifer Pett-Ridge, Ankona Datta, Daniela Strenkert, Patrice A. Salomé, Munkhtsetseg Tsednee, Ajay Sharma, Sabeeha S. Merchant, Martina Ralle
Publikováno v:
The Journal of biological chemistry, vol 294, iss 46
Exposing cells to excess metal concentrations well beyond the cellular quota is a powerful tool for understanding the molecular mechanisms of metal homeostasis. Such improved understanding may enable bioengineering of organisms with improved nutritio
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::617fe508754acb6092c84bbd1595f512
https://escholarship.org/uc/item/0mb9d255
https://escholarship.org/uc/item/0mb9d255
Autor:
Munkhtsetseg, Tsednee, Madeli, Castruita, Patrice A, Salomé, Ajay, Sharma, Brianne E, Lewis, Stefan R, Schmollinger, Daniela, Strenkert, Kristen, Holbrook, Marisa S, Otegui, Kaustav, Khatua, Sayani, Das, Ankona, Datta, Si, Chen, Christina, Ramon, Martina, Ralle, Peter K, Weber, Timothy L, Stemmler, Jennifer, Pett-Ridge, Brian M, Hoffman, Sabeeha S, Merchant
Publikováno v:
J Biol Chem
Exposing cells to excess metal concentrations well beyond the cellular quota is a powerful tool for understanding the molecular mechanisms of metal homeostasis. Such improved understanding may enable bioengineering of organisms with improved nutritio
Autor:
Lung-Jiun Shin, Munkhtsetseg Tsednee, Chyi-Chuann Chen, Jing-Chi Lo, Jing-Fen Wu, Yong-Yi Chen, Ying Wang, Varanavasiappan Shanmugam, Kuo-Chen Yeh, Shu-Hsing Wu
Publikováno v:
Plant Physiology. 161:1409-1420
The homeostasis of iron (Fe) in plants is strictly regulated to maintain an optimal level for plant growth and development but not cause oxidative stress. About 30% of arable land is considered Fe deficient because of calcareous soil that renders Fe
Publikováno v:
Scientific Reports
Electrospray ionization-mass spectrometry (ESI-MS) is used to analyze metal species in a variety of samples. Here, we describe an application for identifying metal species by tandem mass spectrometry (ESI-MS/MS) with the release of free metals from t
Publikováno v:
New Phytologist. 195:951-961
The direct analysis of phytosiderophores (PSs) and their metal complexes in plants is critical to understanding the biological functions of different PSs. Here we report on a rapid and highly sensitive liquid chromatography-electrospray ionization-qu
Publikováno v:
The Plant Journal. 69:1006-1017
Summary Zinc is an essential micronutrient for plants, but it is toxic in excess concentrations. In Arabidopsis, additional iron (Fe) can increase Zn tolerance. We isolated a mutant, zinc tolerance induced by iron 1, designated zir1, with a defect in
Autor:
Kimitsune Ishizaki, Takayuki Kohchi, Kuo-Chen Yeh, Munkhtsetseg Tsednee, Jing-Chi Lo, Ying-Chu Lo, Jer-Ming Hu, Shun-Chung Yang, Der-Chuen Lee
Publikováno v:
The New phytologist. 211(2)
To acquire appropriate iron (Fe), vascular plants have developed two unique strategies, the reduction-based strategy I of nongraminaceous plants for Fe(2+) and the chelation-based strategy II of graminaceous plants for Fe(3+) . However, the mechanism