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Libri sul tema "PH regulation"

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Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 25 maggio 2024

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1

Turk, Boris. Papain-like cysteine proteinases: Regulation by proteinase inhibitors and pH. Uppsala: SverigesLantbruksuniversitet, 1996.

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2

Williams, Mark R. pH and calcium regulation in lens epithelial cells: A fluorimetric dye study. Norwich: University of East Anglia, 1993.

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3

S, Egginton, Taylor E. W e Raven John A, a cura di. Regulation of tissue pH in plants and animals: A reappraisal of current techniques. Cambridge, UK: Cambridge University Press, 1999.

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4

Maidorn, Robert. Inhibition of the regulation of intracellular pH by analogues of amiloride as a possible mechanism of tumour selective therapy. Ottawa: National Library of Canada = Bibliothèque nationale du Canada, 1992.

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5

Numata, Masa. Ion Transporters and PH Regulation. Morgan & Claypool Life Science Publishers, 2014.

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6

The regulation of hydrogen and body pH. Brighton: University of Brighton, 1998.

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7

Egginton, S., Edwin W. Taylor e J. A. Raven, a cura di. Regulation of Tissue pH in Plants and Animals. Cambridge University Press, 1999. http://dx.doi.org/10.1017/cbo9780511542640.

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8

Rotin, Daniela. Regulation of intracellular pH as an important determinant of tumour cell viability. 1988.

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9

Swallow, Carol Jane. Cytoplasmic pH regulation in murine peritoneal macrophages: mechanisms, modulation and functional significance. 1993.

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10

Egginton, S., Edwin W. Taylor e J. A. Raven. Regulation of Tissue pH in Plants and Animals: A Reappraisal of Current Techniques. Cambridge University Press, 2005.

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11

Koehler, Jacqueline Anne. Regulation of the GTPase-activating protein, p120GAP, through its PH and CaLB domains. 2001.

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12

Egginton, S., Edwin W. Taylor e J. A. Raven. Regulation of Tissue pH in Plants and Animals: A Reappraisal of Current Techniques. Cambridge University Press, 2009.

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13

Egginton, S., Edwin W. Taylor e J. A. Raven. Regulation of Tissue Ph in Plants and Animals: A Reappraisal of Current Techniques. Cambridge University Press, 1999.

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14

Raven, John A., E. W. Taylor e S. Egginton. Regulation of Tissue PH in Plants and Animals: A Reappraisal of Current Techniques. Cambridge University Press, 1999.

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15

Boyer, Michael Joseph. Tumor acidity and the influence of microenvironment on the regulation of intracellular pH: implications for therapy. 1993.

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16

Boitano, Scott Anthony. Regulation of trout sperm motility: Evaluation of swimming parameters and the role of membrane potential, pH, and Ca⁺⁺ in activation and regulation of motility. 1991.

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17

Inhibition of the regulation of intracellular pH: Potential of the amiloride analogue HMA in tumour selective therapy. Ottawa: National Library of Canada, 1993.

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18

(Editor), S. Egginton, Edwin W. Taylor (Editor) e J. A. Raven (Editor), a cura di. Regulation of Tissue pH in Plants and Animals: A Reappraisal of Current Techniques (Society for Experimental Biology Seminar Series). Cambridge University Press, 1999.

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19

(Editor), S. Egginton, Edwin W. Taylor (Editor) e J. A. Raven (Editor), a cura di. Regulation of Tissue pH in Plants and Animals: A Reappraisal of Current Techniques (Society for Experimental Biology Seminar Series). Cambridge University Press, 2007.

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20

Regulation of nitrogen uptake and assimilation: Effects of nitrogen source, root-zone pH, and aerial CO concentration on growth and productivity of soybeans. Moffett Field, Calif: National Aeronautics and Space Administration, Ames Research Center, 1990.

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21

National Aeronautics and Space Administration (NASA) Staff. Regulation of Nitrogen Uptake and Assimilation: Effects of Nitrogen Source, Root-Zone Ph, and Aerial Co2 Concentration on Growth and Productivity of Soybeans. Independently Published, 2018.

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22

Murer, Heini, Jürg Biber e Carsten A. Wagner. Phosphate homeostasis. A cura di Robert Unwin. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199592548.003.0025.

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Abstract (sommario):
Inorganic phosphate ions (H2PO4−/ HPO42−) (abbreviated as Pi) are involved in formation of bone and generation of high-energy bonds (e.g. ATP), metabolic pathways, and regulation of cellular functions. In addition, Pi is a component of biological membranes and nucleic acids. Only about 1% of total body Pi content is present in extracellular fluids, at a plasma concentration in adults within the range 0.8–1.4 mMol/L (at pH 7.4 mostly as HPO42−), with diurnal variations of approximately 0.2 mM. A small amount of plasma Pi is bound to proteins or forms complexes with calcium. Under normal, balanced conditions, absorption of dietary Pi along the small intestine equals the output of Pi via kidney and faeces. Renal excretion of Pi represents the key determinant for the adjustment of normal Pi plasma concentrations. Renal reabsorption of Pi occurs along the proximal tubules by sodium-dependent Pi cotransporters that are strictly localized at the apical brush border membrane. Parathyroid hormone (PTH) and FGF23 are key regulators amongst a myriad of factors controlling excretion of Pi in urine, mostly by changes of the apical abundance of Na/Pi cotransporters. Hypophosphataemia may result in osteomalacia, rickets, muscle weakness, and haemolysis. Hyperphosphataemia can lead to hyperparathyroidism and severe calcifications in different tissues.
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