| 1 |
Zhou X, Ferraris JD, Burg MB.
Mitochondrial reactive oxygen species contribute to high NaCl-induced activation of the transcription factor TonEBP/OREBP. Am J Physiol Renal Physiol: 2005. [Text Abstract on PubMed] |
| 2 |
Dmitrieva NI, Celeste A, Nussenzweig A, Burg MB.
Ku86 preserves chromatin integrity in cells adapted to high NaCl. Proc Natl Acad Sci U S A 102(30): 10730-5, 2005. [Text Abstract on PubMed] |
| 3 |
Dmitrieva NI, Burg MB, Ferraris JD.
DNA damage and osmotic regulation in the kidney. Am J Physiol Renal Physiol 289(1): F2-7, 2005. [Text Abstract on PubMed] |
| 4 |
Cai Q, Ferraris JD, Burg MB.
High NaCl increases TonEBP/OREBP mRNA and protein by stabilizing its mRNA. Am J Physiol Renal Physiol 289(4): F803-7, 2005. [Text Abstract on PubMed] |
| 5 |
Zhang Z, Ferraris JD, Irarrazabal CE, Dmitrieva NI, Park JH, Burg MB.
Ataxia telangiectasia-mutated, a DNA damage-inducible kinase, contributes to high NaCl-induced nuclear localization of transcription factor TonEBP/OREBP. Am J Physiol Renal Physiol 289(3): F506-11, 2005. [Text Abstract on PubMed] |
| 6 |
Zhou X, Ferraris JD, Cai Q, Agarwal A, Burg MB.
Increased reactive oxygen species contribute to high NaCl-induced activation of the osmoregulatory transcription factor TonEBP/OREBP. Am J Physiol Renal Physiol 289(2): F377-85, 2005. [Text Abstract on PubMed] |
| 7 |
Dmitrieva NI, Burg MB.
Hypertonic stress response. Mutat Res 569(1-2): 65-74, 2005. [Text Abstract on PubMed] |
| 8 |
Ferraris JD, Burg MB.
Drying and salting send different messages. J Physiol 558(Pt 1): 3, 2004. [Text Abstract on PubMed] |
| 9 |
Zhang Z, Dmitrieva NI, Park JH, Levine RL, Burg MB.
High urea and NaCl carbonylate proteins in renal cells in culture and in vivo, and high urea causes 8-oxoguanine lesions in their DNA. Proc Natl Acad Sci U S A 101(25): 9491-6, 2004. [Text Abstract on PubMed] |
| 10 |
Irarrazabal CE, Liu JC, Burg MB, Ferraris JD.
ATM, a DNA damage-inducible kinase, contributes to activation by high NaCl of the transcription factor TonEBP/OREBP. Proc Natl Acad Sci U S A 101(23): 8809-14, 2004. [Text Abstract on PubMed] |
| 11 |
Dmitrieva NI, Burg MB.
Living with DNA breaks is an everyday reality for cells adapted to high NaCl. Cell Cycle 3(5): 561-3, 2004. [Text Abstract on PubMed] |
| 12 |
Dmitrieva NI, Cai Q, Burg MB.
Cells adapted to high NaCl have many DNA breaks and impaired DNA repair both in cell culture and in vivo. Proc Natl Acad Sci U S A 101(8): 2317-22, 2004. [Text Abstract on PubMed] |
| 13 |
Cai Q, Ferraris JD, Burg MB.
Greater tolerance of renal medullary cells for a slow increase in osmolality is associated with enhanced expression of HSP70 and other osmoprotective genes. Am J Physiol Renal Physiol 286(1): F58-67, 2004. [Text Abstract on PubMed] |
| 14 |
Zhang Z, Ferraris JD, Brooks HL, Brisc I, Burg MB.
Expression of osmotic stress-related genes in tissues of normal and hyposmotic rats. Am J Physiol Renal Physiol 285(4): F688-93, 2003. [Text Abstract on PubMed] |
| 15 |
Dmitrieva NI, Bulavin DV, Burg MB.
High NaCl causes Mre11 to leave the nucleus, disrupting DNA damage signaling and repair. Am J Physiol Renal Physiol 285(2): F266-74, 2003. [Text Abstract on PubMed] |
| 16 |
Cai Q, Dmitrieva NI, Michea LF, Rocha G, Ferguson D, Burg MB.
Toxicity of acetaminophen, salicylic acid, and caffeine for first-passage rat renal inner medullary collecting duct cells. J Pharmacol Exp Ther 306(1): 35-42, 2003. [Text Abstract on PubMed] |
| 17 |
Ferraris JD, Persaud P, Williams CK, Chen Y, Burg MB.
cAMP-independent role of PKA in tonicity-induced transactivation of tonicity-responsive enhancer/ osmotic response element-binding protein. Proc Natl Acad Sci U S A 99(26): 16800-5, 2002. [Text Abstract on PubMed] |
| 18 |
Burg MB.
Response of renal inner medullary epithelial cells to osmotic stress. Comp Biochem Physiol A Mol Integr Physiol 133(3): 661-6, 2002. [Text Abstract on PubMed] |
| 19 |
Chakravarty D, Cai Q, Ferraris JD, Michea L, Burg MB, Kültz D.
Three GADD45 isoforms contribute to hypertonic stress phenotype of murine renal inner medullary cells. Am J Physiol Renal Physiol 283(5): F1020-9, 2002. [Text Abstract on PubMed] |
| 20 |
Cai Q, Michea L, Andrews P, Zhang Z, Rocha G, Dmitrieva N, Burg MB.
Rate of increase of osmolality determines osmotic tolerance of mouse inner medullary epithelial cells. Am J Physiol Renal Physiol 283(4): F792-8, 2002. [Text Abstract on PubMed] |
| 21 |
Zhang Z, Cai Q, Michea L, Dmitrieva NI, Andrews P, Burg MB.
Proliferation and osmotic tolerance of renal inner medullary epithelial cells in vivo and in cell culture. Am J Physiol Renal Physiol 283(2): F302-8, 2002. [Text Abstract on PubMed] |
| 22 |
Bedford JJ, Burg MB, Peters E, Smith RA, Leader JP.
Putative osmolytes in the kidney of the Australian brush-tailed possum, Trichosurus vulpecula. Comp Biochem Physiol B Biochem Mol Biol 132(3): 635-44, 2002. [Text Abstract on PubMed] |
| 23 |
Michea L, Combs C, Andrews P, Dmitrieva N, Burg MB.
Mitochondrial dysfunction is an early event in high-NaCl-induced apoptosis of mIMCD3 cells. Am J Physiol Renal Physiol 282(6): F981-90, 2002. [Text Abstract on PubMed] |
| 24 |
Ferraris JD, Williams CK, Persaud P, Zhang Z, Chen Y, Burg MB.
Activity of the TonEBP/OREBP transactivation domain varies directly with extracellular NaCl concentration. Proc Natl Acad Sci U S A 99(2): 739-44, 2002. [Text Abstract on PubMed] |
| 25 |
Dmitrieva NI, Bulavin DV, Fornace AJ, Burg MB.
Rapid activation of G2/M checkpoint after hypertonic stress in renal inner medullary epithelial (IME) cells is protective and requires p38 kinase. Proc Natl Acad Sci U S A 99(1): 184-9, 2002. [Text Abstract on PubMed] |
| 26 |
Rocha GM, Michea LF, Peters EM, Kirby M, Xu Y, Ferguson DR, Burg MB.
Direct toxicity of nonsteroidal antiinflammatory drugs for renal medullary cells. Proc Natl Acad Sci U S A 98(9): 5317-22, 2001. [Text Abstract on PubMed] |
| 27 |
Dmitrieva NI, Michea LF, Rocha GM, Burg MB.
Cell cycle delay and apoptosis in response to osmotic stress. Comp Biochem Physiol A Mol Integr Physiol 130(3): 411-20, 2001. [Text Abstract on PubMed] |
| 28 |
Burg MB.
Macromolecular crowding as a cell volume sensor. Cell Physiol Biochem 10(5-6): 251-6, 2000. [Text Abstract on PubMed] |
| 29 |
Hurwitz AA, Foster BA, Kwon ED, Truong T, Choi EM, Greenberg NM, Burg MB, Allison JP.
Combination immunotherapy of primary prostate cancer in a transgenic mouse model using CTLA-4 blockade. Cancer Res 60(9): 2444-8, 2000. [Text Abstract on PubMed] |
| 30 |
Michea L, Ferguson DR, Peters EM, Andrews PM, Kirby MR, Burg MB.
Cell cycle delay and apoptosis are induced by high salt and urea in renal medullary cells. Am J Physiol Renal Physiol 278(2): F209-18, 2000. [Text Abstract on PubMed] |
| 31 |
Kwon ED, Foster BA, Hurwitz AA, Madias C, Allison JP, Greenberg NM, Burg MB.
Elimination of residual metastatic prostate cancer after surgery and adjunctive cytotoxic T lymphocyte-associated antigen 4 (CTLA-4) blockade immunotherapy. Proc Natl Acad Sci U S A 96(26): 15074-9, 1999. [Text Abstract on PubMed] |
| 32 |
Burg MB, Peters EM, Bohren KM, Gabbay KH.
Factors affecting counteraction by methylamines of urea effects on aldose reductase. Proc Natl Acad Sci U S A 96(11): 6517-22, 1999. [Text Abstract on PubMed] |
| 33 |
Rocha AS, Kokko JP, Burg MB.
Sodium chloride and water transport in the medullary thick ascending limb of Henle: evidence for active chloride transport 1973. J Am Soc Nephrol 10(5): 1145-56, 1999. [Text Abstract on PubMed] |
| 34 |
Kültz D, Burg MB.
Intracellular signaling in response to osmotic stress. Contrib Nephrol 123: 94-109, 1998. [Text Abstract on PubMed] |
| 35 |
Kültz D, Madhany S, Burg MB.
Hyperosmolality causes growth arrest of murine kidney cells. Induction of GADD45 and GADD153 by osmosensing via stress-activated protein kinase 2. J Biol Chem 273(22): 13645-51, 1998. [Text Abstract on PubMed] |
| 36 |
Burg MB, Peters EM.
Effects of glycine betaine and glycerophosphocholine on thermal stability of ribonuclease. Am J Physiol 274(4 Pt 2): F762-5, 1998. [Text Abstract on PubMed] |
| 37 |
Burg MB, Peters EM.
Urea and methylamines have similar effects on aldose reductase activity. Am J Physiol 273(6 Pt 2): F1048-53, 1997. [Text Abstract on PubMed] |
| 38 |
Burg MB.
Renal osmoregulatory transport of compatible organic osmolytes. Curr Opin Nephrol Hypertens 6(5): 430-3, 1997. [Text Abstract on PubMed] |
| 39 |
Kwon ED, Hurwitz AA, Foster BA, Madias C, Feldhaus AL, Greenberg NM, Burg MB, Allison JP.
Manipulation of T cell costimulatory and inhibitory signals for immunotherapy of prostate cancer. Proc Natl Acad Sci U S A 94(15): 8099-103, 1997. [Text Abstract on PubMed] |
| 40 |
Kültz D, Garcia-Perez A, Ferraris JD, Burg MB.
Distinct regulation of osmoprotective genes in yeast and mammals. Aldose reductase osmotic response element is induced independent of p38 and stress-activated protein kinase/Jun N-terminal kinase in rabbit kidney cells. J Biol Chem 272(20): 13165-70, 1997. [Text Abstract on PubMed] |
| 41 |
Burg MB, Kwon ED, Kültz D.
Regulation of gene expression by hypertonicity. Annu Rev Physiol 59: 437-55, 1997. [Text Abstract on PubMed] |
| 42 |
Burg MB, Grantham J, Abramow M, Orloff J, Schafer JA.
Preparation and study of fragments of single rabbit nephrons. J Am Soc Nephrol 8(4): 675-83, 1997. [Text Abstract on PubMed] |
| 43 |
Burg MB, Kwon ED, Kültz D.
Osmotic regulation of gene expression. FASEB J 10(14): 1598-606, 1996. [Text Abstract on PubMed] |
| 44 |
Burg MB, Kwon ED, Peters EM.
Glycerophosphocholine and betaine counteract the effect of urea on pyruvate kinase. Kidney Int Suppl 57: S100-4, 1996. [Text Abstract on PubMed] |
| 45 |
Ferraris JD, Williams CK, Jung KY, Bedford JJ, Burg MB, García-Pérez A.
ORE, a eukaryotic minimal essential osmotic response element. The aldose reductase gene in hyperosmotic stress. J Biol Chem 271(31): 18318-21, 1996. [Text Abstract on PubMed] |
| 46 |
Kwon ED, Dooley JA, Jung KY, Andrews PM, García-Pérez A, Burg MB.
Organic osmolyte distribution and levels in the mammalian urinary bladder in diuresis and antidiuresis. Am J Physiol 271(1 Pt 2): F230-3, 1996. [Text Abstract on PubMed] |
| 47 |
Burg MB.
Coordinate regulation of organic osmolytes in renal cells. Kidney Int 49(6): 1684-5, 1996. [Text Abstract on PubMed] |
| 48 |
Ferraris JD, Burg MB, Williams CK, Peters EM, García-Pérez A.
Betaine transporter cDNA cloning and effect of osmolytes on its mRNA induction. Am J Physiol 270(2 Pt 1): C650-4, 1996. [Text Abstract on PubMed] |
| 49 |
Sheikh-Hamad D, Ferraris JD, Dragolovich J, Preuss HG, Burg MB, García-Pérez A.
CD9 antigen mRNA is induced by hypertonicity in two renal epithelial cell lines. Am J Physiol 270(1 Pt 1): C253-8, 1996. [Text Abstract on PubMed] |
| 50 |
Kwon ED, Zablocki K, Peters EM, Jung KY, García-Pérez A, Burg MB.
Betaine and inositol reduce MDCK cell glycerophosphocholine by stimulating its degradation. Am J Physiol 270(1 Pt 1): C200-7, 1996. [Text Abstract on PubMed] |
| 51 |
Kwon ED, Zablocki K, Jung KY, Peters EM, García-Pérez A, Burg MB.
Osmoregulation of GPC:choline phosphodiesterase in MDCK cells: different effects of urea and NaCl. Am J Physiol 269(1 Pt 1): C35-41, 1995. [Text Abstract on PubMed] |
| 52 |
Burg MB.
Molecular basis of osmotic regulation. Am J Physiol 268(6 Pt 2): F983-96, 1995. [Text Abstract on PubMed] |
| 53 |
Kwon ED, Jung KY, Edsall LC, Kim HY, García-Pérez A, Burg MB.
Osmotic regulation of synthesis of glycerophosphocholine from phosphatidylcholine in MDCK cells. Am J Physiol 268(2 Pt 1): C402-12, 1995. [Text Abstract on PubMed] |
| 54 |
Ferraris JD, Williams CK, Martin BM, Burg MB, García-Pérez A.
Cloning, genomic organization, and osmotic response of the aldose reductase gene. Proc Natl Acad Sci U S A 91(22): 10742-6, 1994. [Text Abstract on PubMed] |
| 55 |
Sheikh-Hamad D, García-Pérez A, Ferraris JD, Peters EM, Burg MB.
Induction of gene expression by heat shock versus osmotic stress. Am J Physiol 267(1 Pt 2): F28-34, 1994. [Text Abstract on PubMed] |
| 56 |
Garner MM, Burg MB.
Macromolecular crowding and confinement in cells exposed to hypertonicity. Am J Physiol 266(4 Pt 1): C877-92, 1994. [Text Abstract on PubMed] |
| 57 |
Burg MB.
Molecular basis for osmoregulation of organic osmolytes in renal medullary cells. J Exp Zool 268(2): 171-5, 1994. [Text Abstract on PubMed] |
| 58 |
Burg MB, Garcia-Perez A.
How tonicity regulates gene expression. J Am Soc Nephrol 3(2): 121-7, 1992. [Text Abstract on PubMed] |
| 59 |
Kwon HM, Yamauchi A, Uchida S, Preston AS, Garcia-Perez A, Burg MB, Handler JS.
Cloning of the cDNa for a Na+/myo-inositol cotransporter, a hypertonicity stress protein. J Biol Chem 267(9): 6297-301, 1992. [Text Abstract on PubMed] |
| 60 |
Smardo FL, Burg MB, Garcia-Perez A.
Kidney aldose reductase gene transcription is osmotically regulated. Am J Physiol 262(3 Pt 1): C776-82, 1992. [Text Abstract on PubMed] |
| 61 |
Yamauchi A, Uchida S, Kwon HM, Preston AS, Robey RB, Garcia-Perez A, Burg MB, Handler JS.
Cloning of a Na(+)- and Cl(-)-dependent betaine transporter that is regulated by hypertonicity. J Biol Chem 267(1): 649-52, 1992. [Text Abstract on PubMed] |
| 62 |
Garcia-Perez A, Burg MB.
Renal medullary organic osmolytes. Physiol Rev 71(4): 1081-115, 1991. [Text Abstract on PubMed] |
| 63 |
Zablocki K, Miller SP, Garcia-Perez A, Burg MB.
Accumulation of glycerophosphocholine (GPC) by renal cells: osmotic regulation of GPC:choline phosphodiesterase. Proc Natl Acad Sci U S A 88(17): 7820-4, 1991. [Text Abstract on PubMed] |
| 64 |
Robey RB, Kwon HM, Handler JS, Garcia-Perez A, Burg MB.
Induction of glycinebetaine uptake into Xenopus oocytes by injection of poly(A)+ RNA from renal cells exposed to high extracellular NaCl. J Biol Chem 266(16): 10400-5, 1991. [Text Abstract on PubMed] |
| 65 |
Moriyama T, Garcia-Perez A, Olson AD, Burg MB.
Intracellular betaine substitutes for sorbitol in protecting renal medullary cells from hypertonicity. Am J Physiol 260(4 Pt 2): F494-7, 1991. [Text Abstract on PubMed] |
| 66 |
Kwon HM, Yamauchi A, Uchida S, Robey RB, Garcia-Perez A, Burg MB, Handler JS.
Renal Na-myo-inositol cotransporter mRNA expression in Xenopus oocytes: regulation by hypertonicity. Am J Physiol 260(2 Pt 2): F258-63, 1991. [Text Abstract on PubMed] |
| 67 |
Garcia-Perez A, Burg MB.
Role of organic osmolytes in adaptation of renal cells to high osmolality. J Membr Biol 119(1): 1-13, 1991. [Text Abstract on PubMed] |
| 68 |
Garcia-Perez A, Burg MB.
Importance of organic osmolytes for osmoregulation by renal medullary cells. Hypertension 16(6): 595-602, 1990. [Text Abstract on PubMed] |
| 69 |
Moriyama T, Garcia-Perez A, Burg MB.
Factors affecting the ratio of different organic osmolytes in renal medullary cells. Am J Physiol 259(5 Pt 2): F847-58, 1990. [Text Abstract on PubMed] |
| 70 |
Nakanishi T, Turner RJ, Burg MB.
Osmoregulation of betaine transport in mammalian renal medullary cells. Am J Physiol 258(4 Pt 2): F1061-7, 1990. [Text Abstract on PubMed] |
| 71 |
Cowley BD, Ferraris JD, Carper D, Burg MB.
In vivo osmoregulation of aldose reductase mRNA, protein, and sorbitol in renal medulla. Am J Physiol 258(1 Pt 2): F154-61, 1990. [Text Abstract on PubMed] |
| 72 |
Yancey PH, Burg MB.
Counteracting effects of urea and betaine in mammalian cells in culture. Am J Physiol 258(1 Pt 2): R198-204, 1990. [Text Abstract on PubMed] |
| 73 |
Yancey PH, Burg MB, Bagnasco SM.
Effects of NaCl, glucose, and aldose reductase inhibitors on cloning efficiency of renal medullary cells. Am J Physiol 258(1 Pt 1): C156-63, 1990. [Text Abstract on PubMed] |
| 74 |
Wright PA, Burg MB, Knepper MA.
Microdissection of kidney tubule segments. Methods Enzymol 191: 226-31, 1990. [Text Abstract on PubMed] |
| 75 |
Nakanishi T, Burg MB.
Osmoregulatory fluxes of myo-inositol and betaine in renal cells. Am J Physiol 257(5 Pt 1): C964-70, 1989. [Text Abstract on PubMed] |
| 76 |
Garcia-Perez A, Martin B, Murphy HR, Uchida S, Murer H, Cowley BD, Handler JS, Burg MB.
Molecular cloning of cDNA coding for kidney aldose reductase. Regulation of specific mRNA accumulation by NaCl-mediated osmotic stress. J Biol Chem 264(28): 16815-21, 1989. [Text Abstract on PubMed] |
| 77 |
Moriyama T, Garcia-Perez A, Burg MB.
Osmotic regulation of aldose reductase protein synthesis in renal medullary cells. J Biol Chem 264(28): 16810-4, 1989. [Text Abstract on PubMed] |
| 78 |
Yancey PH, Burg MB.
Distribution of major organic osmolytes in rabbit kidneys in diuresis and antidiuresis. Am J Physiol 257(4 Pt 2): F602-7, 1989. [Text Abstract on PubMed] |
| 79 |
Nakanishi T, Burg MB.
Osmoregulation of glycerophosphorylcholine content of mammalian renal cells. Am J Physiol 257(4 Pt 1): C795-801, 1989. [Text Abstract on PubMed] |
| 80 |
Nakanishi T, Turner RJ, Burg MB.
Osmoregulatory changes in myo-inositol transport by renal cells. Proc Natl Acad Sci U S A 86(15): 6002-6, 1989. [Text Abstract on PubMed] |
| 81 |
Nakanishi T, Balaban RS, Burg MB.
Survey of osmolytes in renal cell lines. Am J Physiol 255(2 Pt 1): C181-91, 1988. [Text Abstract on PubMed] |
| 82 |
Garvin JL, Burg MB, Knepper MA.
Active NH4+ absorption by the thick ascending limb. Am J Physiol 255(1 Pt 2): F57-65, 1988. [Text Abstract on PubMed] |
| 83 |
Bagnasco SM, Murphy HR, Bedford JJ, Burg MB.
Osmoregulation by slow changes in aldose reductase and rapid changes in sorbitol flux. Am J Physiol 254(6 Pt 1): C788-92, 1988. [Text Abstract on PubMed] |
| 84 |
Burg MB, Kador PF.
Sorbitol, osmoregulation, and the complications of diabetes. J Clin Invest 81(3): 635-40, 1988. [Text Abstract on PubMed] |
| 85 |
Burg MB.
Role of aldose reductase and sorbitol in maintaining the medullary intracellular milieu. Kidney Int 33(3): 635-41, 1988. [Text Abstract on PubMed] |
| 86 |
Star RA, Kurtz I, Mejia R, Burg MB, Knepper MA.
Disequilibrium pH and ammonia transport in isolated perfused cortical collecting ducts. Am J Physiol 253(6 Pt 2): F1232-42, 1987. [Text Abstract on PubMed] |
| 87 |
Bedford JJ, Bagnasco SM, Kador PF, Harris HW, Burg MB.
Characterization and purification of a mammalian osmoregulatory protein, aldose reductase, induced in renal medullary cells by high extracellular NaCl. J Biol Chem 262(29): 14255-9, 1987. [Text Abstract on PubMed] |
| 88 |
Atkins JL, Burg MB.
Control of steady-state pH in rabbit proximal straight tubules. Am J Physiol 253(2 Pt 2): F282-9, 1987. [Text Abstract on PubMed] |
| 89 |
Knepper MA, Burg MB, Orloff J, Berliner RW, Rector FC.
Ammonium, urea, and systemic pH regulation. Am J Physiol 253(1 Pt 2): F199-202, 1987. [Text Abstract on PubMed] |
| 90 |
Star RA, Burg MB, Knepper MA.
Luminal disequilibrium pH and ammonia transport in outer medullary collecting duct [corrected and issued with original paging in Am J Physiol 1987 Aug;253(2 Pt 2)] Am J Physiol 252(6 Pt 2): F1148-57, 1987. [Text Abstract on PubMed] |
| 91 |
Bagnasco SM, Uchida S, Balaban RS, Kador PF, Burg MB.
Induction of aldose reductase and sorbitol in renal inner medullary cells by elevated extracellular NaCl. Proc Natl Acad Sci U S A 84(6): 1718-20, 1987. [Text Abstract on PubMed] |
| 92 |
Garvin JL, Burg MB, Knepper MA.
NH3 and NH4+ transport by rabbit renal proximal straight tubules. Am J Physiol 252(2 Pt 2): F232-9, 1987. [Text Abstract on PubMed] |
| 93 |
Balaban RS, Burg MB.
Osmotically active organic solutes in the renal inner medulla. Kidney Int 31(2): 562-4, 1987. [Text Abstract on PubMed] |
| 94 |
Burg MB, Knepper MA.
Single tubule perfusion techniques. Kidney Int 30(2): 166-70, 1986. [Text Abstract on PubMed] |
| 95 |
Tomita K, Pisano JJ, Burg MB, Knepper MA.
Effects of vasopressin and bradykinin on anion transport by the rat cortical collecting duct. Evidence for an electroneutral sodium chloride transport pathway. J Clin Invest 77(1): 136-41, 1986. [Text Abstract on PubMed] |
| 96 |
Knepper MA, Good DW, Burg MB.
Ammonia and bicarbonate transport by rat cortical collecting ducts perfused in vitro. Am J Physiol 249(6 Pt 2): F870-7, 1985. [Text Abstract on PubMed] |
| 97 |
Garvin JL, Burg MB, Knepper MA.
Ammonium replaces potassium in supporting sodium transport by the Na-K-ATPase of renal proximal straight tubules. Am J Physiol 249(5 Pt 2): F785-8, 1985. [Text Abstract on PubMed] |
| 98 |
Atkins JL, Burg MB.
Bicarbonate transport by isolated perfused rat collecting ducts. Am J Physiol 249(4 Pt 2): F485-9, 1985. [Text Abstract on PubMed] |
| 99 |
Star RA, Burg MB, Knepper MA.
Bicarbonate secretion and chloride absorption by rabbit cortical collecting ducts. Role of chloride/bicarbonate exchange. J Clin Invest 76(3): 1123-30, 1985. [Text Abstract on PubMed] |
| 100 |
Garcia-Austt J, Good DW, Burg MB, Knepper MA.
Deoxycorticosterone-stimulated bicarbonate secretion in rabbit cortical collecting ducts: effects of luminal chloride removal and in vivo acid loading. Am J Physiol 249(2 Pt 2): F205-12, 1985. [Text Abstract on PubMed] |
| 101 |
Knepper MA, Good DW, Burg MB.
Mechanism of ammonia secretion by rabbit cortical collecting ducts. Quantitative considerations. Contrib Nephrol 47: 116-24, 1985. [Text Abstract on PubMed] |
| 102 |
Knepper MA, Good DW, Burg MB.
Mechanism of ammonia secretion by cortical collecting ducts of rabbits. Am J Physiol 247(5 Pt 2): F729-38, 1984. [Text Abstract on PubMed] |
| 103 |
Sariban-Sohraby S, Burg MB, Turner RJ.
Aldosterone-stimulated sodium uptake by apical membrane vesicles from A6 cells. J Biol Chem 259(18): 11221-5, 1984. [Text Abstract on PubMed] |
| 104 |
Good DW, Knepper MA, Burg MB.
Ammonia and bicarbonate transport by thick ascending limb of rat kidney. Am J Physiol 247(1 Pt 2): F35-44, 1984. [Text Abstract on PubMed] |
| 105 |
Good DW, Burg MB.
Ammonia production by individual segments of the rat nephron. J Clin Invest 73(3): 602-10, 1984. [Text Abstract on PubMed] |
| 106 |
Sariban-Sohraby S, Burg MB, Turner RJ.
Apical sodium uptake in toad kidney epithelial cell line A6. Am J Physiol 245(3): C167-71, 1983. [Text Abstract on PubMed] |
| 107 |
Burg MB.
Isolated perfused tubule. Introduction: background and development of microperfusion technique. Kidney Int 22(5): 417-24, 1982. [Text Abstract on PubMed] |
| 108 |
Almeida AJ, Burg MB.
Sodium transport in the rabbit connecting tubule. Am J Physiol 243(4): F330-4, 1982. [Text Abstract on PubMed] |
| 109 |
Knepper MA, Burg MB.
Increased fluid absorption and cell volume in isolated rabbit proximal straight tubules after in vivo DOCA administration. Am J Physiol 241(5): F502-8, 1981. [Text Abstract on PubMed] |
| 110 |
Burg MB.
The significance of nephron heterogeneity. Nippon Jinzo Gakkai Shi 23(7): 957-64, 1981. [Text Abstract on PubMed] |
| 111 |
Garg LC, Knepper MA, Burg MB.
Mineralocorticoid effects on Na-K-ATPase in individual nephron segments. Am J Physiol 240(6): F536-44, 1981. [Text Abstract on PubMed] |
| 112 |
Schwartz GJ, Weinstein AM, Steele RE, Stephenson JL, Burg MB.
Carbon dioxide permeability of rabbit proximal convoluted tubules. Am J Physiol 240(3): F231-44, 1981. [Text Abstract on PubMed] |
| 113 |
Iino Y, Burg MB.
Effect of acid-base status in vivo on bicarbonate transport by rabbit renal tubules in vitro. Jpn J Physiol 31(1): 99-107, 1981. [Text Abstract on PubMed] |
| 114 |
Burg MB.
Secretion and reabsorption of bicarbonate in single renal tubules of the rabbit. Ann N Y Acad Sci 341: 225-32, 1980. [Text Abstract on PubMed] |
| 115 |
Iino Y, Burg MB.
Effect of parathyroid hormone on bicarbonate absorption by proximal tubules in vitro. Am J Physiol 236(4): F387-91, 1979. [Text Abstract on PubMed] |
| 116 |
Schwartz GJ, Burg MB.
Mineralocorticoid effects on cation transport by cortical collecting tubules in vitro. Am J Physiol 235(6): F576-85, 1978. [Text Abstract on PubMed] |
| 117 |
Burg MB.
The nephron in transport of sodium, amino acids, and glucose. Hosp Pract 13(10): 99-109, 1978. [Text Abstract on PubMed] |
| 118 |
Warnock DG, Patlak CS, Burg MB.
Contribution of leaked load to solute transport by renal tubules. Am J Physiol 234(6): F480-4, 1978. [Text Abstract on PubMed] |
| 119 |
McKinney TD, Burg MB.
Bicarbonate secretion by rabbit cortical collecting tubules in vitro. J Clin Invest 61(6): 1421-7, 1978. [Text Abstract on PubMed] |
| 120 |
McKinney TD, Burg MB.
Bicarbonate absorption by rabbit cortical collecting tubules in vitro. Am J Physiol 234(2): F141-5, 1978. [Text Abstract on PubMed] |
| 121 |
McKinney TD, Burg MB.
Bicarbonate transport by rabbit cortical collecting tubules. Effect of acid and alkali loads in vivo on transport in vitro. J Clin Invest 60(3): 766-8, 1977. [Text Abstract on PubMed] |
| 122 |
McKinney TD, Burg MB.
Biocarbonate and fluid absorption by renal proximal straight tubules. Kidney Int 12(1): 1-8, 1977. [Text Abstract on PubMed] |
| 123 |
Warnock DG, Burg MB.
Urinary acidification: CO2 transport by the rabbit proximal straight tubule. Am J Physiol 232(1): F20-5, 1977. [Text Abstract on PubMed] |
| 124 |
Burg MB, Green N.
Role of monovalent ions in the reabsorption of fluid by isolated perfused proximal renal tubules of the rabbit. Kidney Int 10(3): 221-8, 1976. [Text Abstract on PubMed] |
| 125 |
Burg MB.
Renal chloride transport and diuretics. Circulation 53(4): 587-8, 1976. [Text Abstract on PubMed] |
| 126 |
Burg MB.
Tubular chloride transport and the mode of action of some diuretics. Kidney Int 9(2): 189-97, 1976. [Text Abstract on PubMed] |
| 127 |
Boudry JF, Stoner LC, Burg MB.
Effect of acid lumen pH on potassium transport in renal cortical collecting tubules. Am J Physiol 230(1): 239-44, 1976. [Text Abstract on PubMed] |
| 128 |
Cardinal J, Lutz MD, Burg MB, Orloff J.
Lack of relationship of potential difference to fluid absorption in the proximal renal tubule. Kidney Int 7(2): 94-102, 1975. [Text Abstract on PubMed] |
| 129 |
Stoner LC, Burg MB, Orloff J.
Ion transport in cortical collecting tubule; effect of amiloride. Am J Physiol 227(2): 453-9, 1974. [Text Abstract on PubMed] |
| 130 |
Lutz MD, Cardinal J, Burg MB.
Electrical resistance of renal proximal tubule perfused in vitro. Am J Physiol 225(3): 729-34, 1973. [Text Abstract on PubMed] |
| 131 |
Frindt G, Burg MB.
Effect of vasopressin on sodium transport in renal cortical collecting tubules. Kidney Int 1(4): 224-31, 1972. [Text Abstract on PubMed] |
| 132 |
Tune BM, Burg MB.
Glucose transport by proximal renal tubules. Am J Physiol 221(2): 580-5, 1971. [Text Abstract on PubMed] |
| 133 |
Helman SI, Grantham JJ, Burg MB.
Effect of vasopressin on electrical resistance of renal cortical collecting tubules. Am J Physiol 220(6): 1825-32, 1971. [Text Abstract on PubMed] |
| 134 |
Kokko JP, Burg MB, Orloff J.
Characteristics of NaCl and water transport in the renal proximal tubule. J Clin Invest 50(1): 69-76, 1971. [Text Abstract on PubMed] |
| 135 |
Burg MB, Orloff J.
Electrical potential difference across proximal convoluted tubules. Am J Physiol 219(6): 1714-6, 1970. [Text Abstract on PubMed] |
| 136 |
Burg MB, Orloff J.
p-Aminohippurate uptake and exchange by separated renal tubules. Am J Physiol 217(4): 1064-8, 1969. [Text Abstract on PubMed] |
| 137 |
Tune BM, Burg MB, Patlak CS.
Characteristics of p-aminohippurate transport in proximal renal tubules. Am J Physiol 217(4): 1057-63, 1969. [Text Abstract on PubMed] |
| 138 |
Burg MB, Weller PF.
Iodopyracet transport by isolated perfused flounder proximal renal tubules. Am J Physiol 217(4): 1053-6, 1969. [Text Abstract on PubMed] |
| 139 |
Grantham JJ, Ganote CE, Burg MB, Orloff J.
Paths of transtubular water flow in isolated renal collecting tubules. J Cell Biol 41(2): 562-76, 1969. [Text Abstract on PubMed] |
| 140 |
Burg MB, Issaacson L, Grantham J, Orloff J.
Electrical properties of isolated perfused rabbit renal tubules. Am J Physiol 215(4): 788-94, 1968. [Text Abstract on PubMed] |
| 141 |
Burg MB, Orloff J.
Control of fluid absorption in the renal proximal tubule. J Clin Invest 47(9): 2016-24, 1968. [Text Abstract on PubMed] |
| 142 |
Ganote CE, Grantham JJ, Moses HL, Burg MB, Orloff J.
Ultrastructural studies of vasopressin effect on isolated perfused renal collecting tubules of the rabbit. J Cell Biol 36(2): 355-67, 1968. [Text Abstract on PubMed] |
| 143 |
Abramow M, Burg MB, Orloff J.
Chloride flux in rabbit kidney tubules in vitro. Am J Physiol 213(5): 1249-53, 1967. [Text Abstract on PubMed] |
| 144 |
Burg MB, Orloff J.
Effect of temperature and medium K on Na and K fluxes in separated renal tubules. Am J Physiol 211(4): 1005-10, 1966. [Text Abstract on PubMed] |
| 145 |
Burg MB, Abramow M.
Localization of tissue sodium and potassium compartments in rabbit renal cortex. Am J Physiol 211(4): 1011-7, 1966. [Text Abstract on PubMed] |
| 146 |
Grantham JJ, Burg MB.
Effect of vasopressin and cyclic AMP on permeability of isolated collecting tubules. Am J Physiol 211(1): 255-9, 1966. [Text Abstract on PubMed] |
| 147 |
BURG MB, ORLOFF J.
ACTIVE CATION TRANSPORT BY KIDNEY TUBULES AT O C. Am J Physiol 207: 983-8, 1964. [Text Abstract on PubMed] |
| 148 |
BURG MB, GROLLMAN EF, ORLOFF J.
SODIUM AND POTASSIUM FLUX OF SEPARATED RENAL TUBULES. Am J Physiol 206: 483-91, 1964. [Text Abstract on PubMed] |
| 149 |
BURG MB, ORLOFF J.
Effect of strophanthidin on fluxes of potassium in rabbit kidney slices. Am J Physiol 205: 139-46, 1963. [Text Abstract on PubMed] |
| 150 |
BURG MB, ORLOFF J.
Oxygen consumption and active transport in separated renal tubules. Am J Physiol 203: 327-30, 1962. [Text Abstract on PubMed] |
| 151 |
BURG MB, ORLOFF J.
Effect of strophanthidin on electrolyte content and PAH accumulation of rabbit kidney slices. Am J Physiol 202: 565-71, 1962. [Text Abstract on PubMed] |
| 152 |
ORLOFF J, BURG MB.
The pathogenesis of hyponatremia in congestive heart failure. Prog Cardiovasc Dis 3: 600-10, 1961. [Text Abstract on PubMed] |
| 153 |
BURG MB, PAPPER S, ROSENBAUM JD.
Factors influencing the diuretic response to ingested water. J Lab Clin Med 57: 533-45, 1961. [Text Abstract on PubMed] |
| 154 |
PAPPER S, SAXON L, BURG MB, SEIFER HW, ROSENBAUM JD.
The effect of morphine sulfate upon the renal excretion of water and solute in man. J Lab Clin Med 50(5): 692-704, 1957. [Text Abstract on PubMed] |
| 155 |
Burg MB.
Perfusion of isolated renal tubules. Yale J Biol Med 45(3): 321-6, [Text Abstract on PubMed] |