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1883 1
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1885 1
1886 2
1887 1
1889 2
1890 1
1893 3
1895 1
1896 1
1898 1
1900 1
1901 2
1904 1
1905 2
1906 4
1907 3
1908 3
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1911 2
1913 1
1914 2
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1916 2
1918 4
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1920 7
1921 2
1922 18
1923 3
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1933 20
1934 11
1935 13
1936 12
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1939 16
1940 20
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1970 2797
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1972 2986
1973 3022
1974 2948
1975 4220
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1977 4004
1978 4110
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1981 4396
1982 4635
1983 5211
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1985 6006
1986 6152
1987 6421
1988 6893
1989 7427
1990 7465
1991 7446
1992 7473
1993 7369
1994 7403
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1996 8474
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The following term was not found in PubMed: Abassinia
Page 1
Did you mean K. abyssinica (31 results)?
Physiology and Pathophysiology of Potassium Homeostasis: Core Curriculum 2019.
Palmer BF, Clegg DJ. Palmer BF, et al. Am J Kidney Dis. 2019 Nov;74(5):682-695. doi: 10.1053/j.ajkd.2019.03.427. Epub 2019 Jun 19. Am J Kidney Dis. 2019. PMID: 31227226 Review.
Total-body potassium (K(+)) content and appropriate distribution of K(+) across the cell membrane is vitally important for normal cellular function. Total-body K(+) content is determined by changes in excretion of K(+) by the kidneys in response to int …
Total-body potassium (K(+)) content and appropriate distribution of K(+) across the cell membrane is vitally important for nor …
k-Isocoronal tilings.
Taganap E, De Las Peñas MLA. Taganap E, et al. Acta Crystallogr A Found Adv. 2019 Jan 1;75(Pt 1):94-106. doi: 10.1107/S2053273318013992. Epub 2019 Jan 1. Acta Crystallogr A Found Adv. 2019. PMID: 30575587
In this article, a framework is presented that allows the systematic derivation of planar edge-to-edge k-isocoronal tilings from tile-s-transitive tilings, s k. A tiling {\cal T} is k-isocoronal if its vertex coronae form k orbits or k transitiv …
In this article, a framework is presented that allows the systematic derivation of planar edge-to-edge k-isocoronal tilings from tile …
Pathophysiology and management of hypokalemia: a clinical perspective.
Unwin RJ, Luft FC, Shirley DG. Unwin RJ, et al. Nat Rev Nephrol. 2011 Feb;7(2):75-84. doi: 10.1038/nrneph.2010.175. Nat Rev Nephrol. 2011. PMID: 21278718 Review.
Potassium (K(+)) ions are the predominant intracellular cations. K(+) homeostasis depends on external balance (dietary intake [typically 100 mmol per day] versus excretion [95% via the kidney; 5% via the colon]) and internal balance (the distribution of K(+) …
Potassium (K(+)) ions are the predominant intracellular cations. K(+) homeostasis depends on external balance (dietary intake …
Long-term efficacy and safety of romiplostim in refractory aplastic anemia: follow-up of a phase 2/3 study.
Mitani K, Lee JW, Jang JH, Tomiyama Y, Miyazaki K, Nagafuji K, Usuki K, Uoshima N, Fujisaki T, Kosugi H, Matsumura I, Sasaki K, Kizaki M, Sawa M, Hidaka M, Kobayashi N, Ichikawa S, Yonemura Y, Murotani K, Shimizu M, Matsuda A, Ozawa K, Nakao S. Mitani K, et al. Blood Adv. 2024 Mar 26;8(6):1415-1419. doi: 10.1182/bloodadvances.2023010959. Blood Adv. 2024. PMID: 38134300 Free PMC article. Clinical Trial. No abstract available.
Comparison of K(+) Channel Families.
Taura J, Kircher DM, Gameiro-Ros I, Slesinger PA. Taura J, et al. Handb Exp Pharmacol. 2021;267:1-49. doi: 10.1007/164_2021_460. Handb Exp Pharmacol. 2021. PMID: 34247281
K(+) channels enable potassium to flow across the membrane with great selectivity. There are four K(+) channel families: voltage-gated K (K(v)), calcium-activated (K(Ca)), inwardly rectifying K (K(ir)), and two-pore domain potassiu
K(+) channels enable potassium to flow across the membrane with great selectivity. There are four K(+) channel families: volta
Dietary K(+) acts as a genuine diuretic.
Svendsen SL, Kornvig S, Berg P, Jensen IS, de Araujo IBBA, Larsen CK, Leipziger J, Sørensen MV. Svendsen SL, et al. Acta Physiol (Oxf). 2022 Feb;234(2):e13762. doi: 10.1111/apha.13762. Epub 2022 Jan 15. Acta Physiol (Oxf). 2022. PMID: 34984847
K(+) balance in mammals relies on regulated renal K(+) excretion matching unregulated fluctuating K(+) intake. Upon a K(+) rich meal, rapid and powerful K(+) excretion is needed. Renal K(+) secretion is stimulated by the increased tubular
K(+) balance in mammals relies on regulated renal K(+) excretion matching unregulated fluctuating K(+) intake. Upon a
Paracrine and endocrine regulation of renal K(+) secretion.
Polidoro JZ, Luchi WM, Seguro AC, Malnic G, Girardi ACC. Polidoro JZ, et al. Am J Physiol Renal Physiol. 2022 Mar 1;322(3):F360-F377. doi: 10.1152/ajprenal.00251.2021. Epub 2022 Jan 24. Am J Physiol Renal Physiol. 2022. PMID: 35073212 Free article. Review.
The seminal studies conducted by Giebisch and coworkers in the 1960s paved the way for understanding the renal mechanisms involved in K(+) homeostasis. It was demonstrated that differential handling of K(+) in the distal segments of the nephron is crucial for proper …
The seminal studies conducted by Giebisch and coworkers in the 1960s paved the way for understanding the renal mechanisms involved in K
Arabidopsis HAK5 under low K(+) availability operates as PMF powered high-affinity K(+) transporter.
Maierhofer T, Scherzer S, Carpaneto A, Müller TD, Pardo JM, Hänelt I, Geiger D, Hedrich R. Maierhofer T, et al. Nat Commun. 2024 Oct 3;15(1):8558. doi: 10.1038/s41467-024-52963-6. Nat Commun. 2024. PMID: 39362862 Free PMC article.
Plants can survive in soils of low micromolar potassium (K(+)) concentrations. Root K(+) intake is accomplished by the K(+) channel AKT1 and KUP/HAK/KT type high-affinity K(+) transporters. ...Therefore, optimizing K(+) use efficiency of crops, …
Plants can survive in soils of low micromolar potassium (K(+)) concentrations. Root K(+) intake is accomplished by the K
Activity-Dependent Fluctuations in Interstitial [K(+)]: Investigations Using Ion-Sensitive Microelectrodes.
Beswick-Jones H, Hopper AJ, Brown AM. Beswick-Jones H, et al. Molecules. 2023 Jan 5;28(2):523. doi: 10.3390/molecules28020523. Molecules. 2023. PMID: 36677581 Free PMC article. Review.
This efflux of K(+) from axons results in K(+) accumulation in the interstitial space, causing depolarization of the K(+) reversal potential (E(K)), which can prevent subsequent action potentials. ...The changes that occur in interstitial [K(+)] …
This efflux of K(+) from axons results in K(+) accumulation in the interstitial space, causing depolarization of the K( …
Boosting the signal: Endothelial inward rectifier K(+) channels.
Jackson WF. Jackson WF. Microcirculation. 2017 Apr;24(3):10.1111/micc.12319. doi: 10.1111/micc.12319. Microcirculation. 2017. PMID: 27652592 Free PMC article. Review.
Increases in extracellular K(+) concentration activate K(IR) allowing them to sense extracellular K(+) concentration and transduce this change into membrane hyperpolarization. ...The expression of K(IR) in capillaries in electrically active tissues may …
Increases in extracellular K(+) concentration activate K(IR) allowing them to sense extracellular K(+) concentration an …
777,579 results
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