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GoPubMed Proteins lists recent and important papers and reviews for proteins. Page last changed on 19 Dec 2016.

Alpha-kinase 2

Top mentioned proteins: KUP, CAN, HAD, ACID, V1a
Papers on HAK
Rice potassium transporter OsHAK1 is essential for maintaining potassium-mediated growth and functions in salt tolerance over low and high potassium concentration ranges.
Xu et al., Nanjing, China. In Plant Cell Environ, Dec 2015
Here, we report the expression patterns and physiological roles of OsHAK1, a member belonging to the KT/KUP/HAK gene family in rice (Oryza sativa L.).
The potassium transporter OsHAK21 functions in the maintenance of ion homeostasis and tolerance to salt stress in rice.
Zhang et al., Nanjing, China. In Plant Cell Environ, Dec 2015
Some members of the high-affinity K(+) transporter (HAK) family are believed to function in the regulation of plant salt tolerance, but the physiological mechanisms remain unclear.
Potassium transporter TRH1 subunits assemble regulating root-hair elongation autonomously from the cell fate determination pathway.
Hatzopoulos et al., Athens, Greece. In Plant Sci, Feb 2015
TRH1 belongs to Arabidopsis KT/KUP/HAK potassium transporter family controlling root-hair growth and gravitropism.
Genome-wide analysis and identification of KT/HAK/KUP potassium transporter gene family in peach (Prunus persica).
Yu et al., Nanjing, China. In Genet Mol Res, 2014
The KT/HAK/KUP family members encoding high-affinity potassium (K(+)) transporters mediate K(+) transport across the plasma membranes of plant cells to maintain plant normal growth and metabolic activities.
Ion homeostasis in a salt-secreting halophytic grass.
Agarwal et al., Bhāvnagar, India. In Aob Plants, 2014
The HAK transcript was relatively abundant in shoot tissue with all the treatments.
Salinity tolerance in plants. Quantitative approach to ion transport starting from halophytes and stepping to genetic and protein engineering for manipulating ion fluxes.
Volkov, London, United Kingdom. In Front Plant Sci, 2014
Special attention is given to ion transporters and to potassium and sodium transport by HKT, HAK, NHX, and SOS1 proteins.
A low K+ signal is required for functional high-affinity K+ uptake through HAK5 transporters.
Martínez et al., Murcia, Spain. In Physiol Plant, 2014
Micro-Tom) as well as Arabidopsis thaliana plants, suggesting that the posttranscriptional regulation of high-affinity HAK transporters take place in all plant species.
The role of a potassium transporter OsHAK5 in potassium acquisition and transport from roots to shoots in rice at low potassium supply levels.
Xu et al., Nanjing, China. In Plant Physiol, 2014
In plants, K transporter (KT)/high affinity K transporter (HAK)/K uptake permease (KUP) is the largest potassium (K) transporter family; however, few of the members have had their physiological functions characterized in planta.
Molecular biology of K+ transport across the plant cell membrane: what do we learn from comparison between plant species?
Sentenac et al., Montpellier, France. In J Plant Physiol, 2014
In this review, we focus on three families of plant K(+) transport systems that are active at the plasma membrane: the Shaker K(+) channel family, comprised of voltage-gated channels that dominate the plasma membrane conductance to K(+) in most environmental conditions, and two families of transporters, the HAK/KUP/KT K(+) transporter family, which includes some high-affinity transporters, and the HKT K(+) and/or Na(+) transporter family, in which K(+)-permeable members seem to be present in monocots only.
Side population cell fractions from hepatocellular carcinoma cell lines increased with tumor dedifferentiation, but lack characteristic features of cancer stem cells.
Yano et al., Kurume, Japan. In J Gastroenterol Hepatol, 2014
METHODS: We used a well-differentiated HCC cell line (HAK-1A) and a poorly differentiated HCC cell line (HAK-1B) established from a single nodule with histological heterogeneity.
A non-canonical function of eukaryotic elongation factor 1A1: regulation of interleukin-6 expression.
Demuth et al., Halle, Germany. In Biochim Biophys Acta, 2014
Therefore, we here used the structurally modified HAK compound biotin-HAK-3 in a reverse chemical approach to identify the relevant molecular target in UV-mediated cross-linking experiments.
The F130S point mutation in the Arabidopsis high-affinity K(+) transporter AtHAK5 increases K(+) over Na(+) and Cs(+) selectivity and confers Na(+) and Cs(+) tolerance to yeast under heterologous expression.
Rubio et al., Murcia, Spain. In Front Plant Sci, 2013
Members of group I of the KT/HAK/KUP family of transporters, such as HAK5, are key components for K(+) acquisition by plant roots at low external K(+) concentrations.
Pegylated interferon-α2a inhibits proliferation of human liver cancer cells in vitro and in vivo.
Yano et al., Kurume, Japan. In Plos One, 2012
After hepatocellular carcinoma (HCC) cells (HAK-1B and KIM-1) were transplanted into nude mice, various doses of PEG-IFN-α2a were subcutaneously administered to the mice once a week for 2 weeks, and tumor volume, weight, and histology were examined.
ALPK2 is crucial for luminal apoptosis and DNA repair-related gene expression in a three-dimensional colonic-crypt model.
Shirasawa et al., Fukuoka, Japan. In Anticancer Res, 2012
ALPK2 is crucial for luminal apoptosis and expression of DNA repair-related genes, possibly in the transition of normal colonic crypt to adenoma.
Plant KT/KUP/HAK potassium transporters: single family - multiple functions.
Grabov, Ashford, United Kingdom. In Ann Bot, 2007
BACKGROUND AND AIMS: Potassium transporters belonging to the KT/KUP/HAK family are important for various aspects of plant life including mineral nutrition and the regulation of development.
Molecular mechanisms and regulation of K+ transport in higher plants.
Sentenac et al., Montpellier, France. In Annu Rev Plant Biol, 2002
The main families of plant K+ transport systems (Shaker and KCO channels, KUP/HAK/KT and HKT transporters) are described, along with molecular data on how these systems are regulated.
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