Molecular background of leak K+ currents: two-pore domain potassium channels
P Enyedi, G Czirják - Physiological reviews, 2010 - journals.physiology.org
Two-pore domain K+(K 2P) channels give rise to leak (also called background) K+ currents.
The well-known role of background K+ currents is to stabilize the negative resting …
The well-known role of background K+ currents is to stabilize the negative resting …
Molecular biology of K+ transport across the plant cell membrane: what do we learn from comparison between plant species?
Cloning and characterizations of plant K+ transport systems aside from Arabidopsis have
been increasing over the past decade, favored by the availability of more and more plant …
been increasing over the past decade, favored by the availability of more and more plant …
[KNIHA][B] Handbook of plant and crop stress
M Pessarakli - 2019 - books.google.com
Since the publication of the third edition of the Handbook of Plant and Crop Stress,
continuous discoveries in the fields of plant and crop environmental stresses and their …
continuous discoveries in the fields of plant and crop environmental stresses and their …
Molecular Mechanisms and Regulation of K+ Transport in Higher Plants
AA Véry, H Sentenac - Annual review of plant biology, 2003 - annualreviews.org
Potassium (K+) plays a number of important roles in plant growth and development. Over the
past few years, molecular approaches associated with electrophysiological analyses have …
past few years, molecular approaches associated with electrophysiological analyses have …
Plant responses to potassium deficiencies: a role for potassium transport proteins
MK Ashley, M Grant, A Grabov - Journal of experimental botany, 2006 - academic.oup.com
The availability of potassium to the plant is highly variable, due to complex soil dynamics,
which are strongly influenced by root–soil interactions. A low plant potassium status triggers …
which are strongly influenced by root–soil interactions. A low plant potassium status triggers …
Roles and transport of sodium and potassium in plants
M Nieves-Cordones, FR Al Shiblawi… - The alkali metal ions …, 2016 - Springer
The two alkali cations Na+ and K+ have similar relative abundances in the earth crust but
display very different distributions in the biosphere. In all living organisms, K+ is the major …
display very different distributions in the biosphere. In all living organisms, K+ is the major …
Improving plant stress tolerance and yield production: is the tonoplast aquaporin SlTIP2; 2 a key to isohydric to anisohydric conversion?
N Sade, BJ Vinocur, A Diber, A Shatil, G Ronen… - New …, 2009 - Wiley Online Library
Anisohydric plants are thought to be more drought tolerant than isohydric plants. However,
the molecular mechanism determining whether the plant water potential during the day …
the molecular mechanism determining whether the plant water potential during the day …
The role of tobacco Aquaporin1 in improving water use efficiency, hydraulic conductivity, and yield production under salt stress
Abstract Tobacco (Nicotiana tabacum; C3) plants increase their water use efficiency (WUE)
under abiotic stress and are suggested to show characteristics of C4 photosynthesis in …
under abiotic stress and are suggested to show characteristics of C4 photosynthesis in …
K+ transport in plants: physiology and molecular biology
Potassium (K+) is an essential nutrient and the most abundant cation in plant cells. Plants
have a wide variety of transport systems for K+ acquisition, catalyzing K+ uptake across a …
have a wide variety of transport systems for K+ acquisition, catalyzing K+ uptake across a …
The nitrogen–potassium intersection: membranes, metabolism, and mechanism
Nitrogen (N) and potassium (K) are the two most abundantly acquired mineral elements by
plants, and their acquisition pathways interact in complex ways. Here, we review pivotal …
plants, and their acquisition pathways interact in complex ways. Here, we review pivotal …