| scholarly article | Q13442814 |
| P356 | DOI | 10.1007/S00240-007-0078-4 |
| P698 | PubMed publication ID | 17277922 |
| P2093 | author name string | Phulwinder K Grover | |
| Rosemary Lyons Ryall | |||
| Lauren A Thurgood | |||
| Magali C Chauvet | |||
| Wilhelm van Bronswijk | |||
| David E Fleming | |||
| P2860 | cites work | Inhibition of calcium oxalate crystal growth and aggregation by prothrombin and its fragments in vitro: relationship between protein structure and inhibitory activity. | Q30322820 |
| DECALCIFICATION OF THIN SECTIONS FOR ELECTRON MICROSCOPE STUDIES OF CRYSTAL-MATRIX RELATIONSHIPS IN MOLLUSC SHELLS | Q33191421 | ||
| The hole truth: intracrystalline proteins and calcium oxalate kidney stones | Q34130662 | ||
| Molecular modulation of calcium oxalate crystallization by osteopontin and citrate | Q36603473 | ||
| Urinary macromolecular inhibition of crystal adhesion to renal epithelial cells is impaired in male stone formers | Q40373196 | ||
| An acidic peptide sequence of nucleolin-related protein can mediate the attachment of calcium oxalate to renal tubule cells | Q40530146 | ||
| Effects of Tamm-Horsfall protein on the protection of MCDK cells from oxalate induced free radical injury | Q40665743 | ||
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| Direct nucleation of calcium oxalate dihydrate crystals onto the surface of living renal epithelial cells in culture | Q41009534 | ||
| Adhesion, internalization and metabolism of calcium oxalate monohydrate crystals by renal epithelial cells | Q41082752 | ||
| Factors determining the aggregation of urinary mucoprotein | Q41214773 | ||
| Adhesion of calcium oxalate monohydrate crystals to renal epithelial cells is inhibited by specific anions | Q41353628 | ||
| Intracrystalline macromolecules are involved in the morphogenesis of calcitic sponge spicules | Q41400864 | ||
| Regulation of renal epithelial cell endocytosis of calcium oxalate monohydrate crystals | Q41555017 | ||
| An improved radioimmunoassay for urinary Tamm-Horsfall glycoprotein. Investigation and resolution of factors affecting its quantification | Q42875287 | ||
| Does Tamm-Horsfall mucoprotein inhibit or promote calcium oxalate crystallization in human urine? | Q43407352 | ||
| Intracrystalline proteins and the hidden ultrastructure of calcium oxalate urinary crystals: implications for kidney stone formation | Q43685597 | ||
| Quantification of proteins extracted from calcium oxalate and calcium phosphate crystals induced in vitro in the urine of healthy controls and stone-forming patients | Q43861715 | ||
| Calcium oxalate monohydrate crystal binding substance produced from Madin-Darby canine kidney cells | Q44201267 | ||
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| Whole urinary proteins coat calcium oxalate monohydrate crystals to greatly decrease their adhesion to renal cells | Q44471702 | ||
| Intracrystalline proteins and urolithiasis: a synchrotron X-ray diffraction study of calcium oxalate monohydrate | Q44509157 | ||
| The density and protein content of calcium oxalate crystals precipitated from human urine: a tool to investigate ultrastructure and the fractional volume occupied by organic matrix | Q44533568 | ||
| Renal epithelial cells constitutively produce a protein that blocks adhesion of crystals to their surface | Q44853247 | ||
| The association of different urinary proteins with calcium oxalate hydromorphs. Evidence for non-specific interactions | Q46465601 | ||
| Intracrystalline proteins and calcium oxalate crystal degradation in MDCK II cells | Q46533063 | ||
| Intracrystalline proteins and urolithiasis: a comparison of the protein content and ultrastructure of urinary calcium oxalate monohydrate and dihydrate crystals | Q46654056 | ||
| Identification of proteins extracted from calcium oxalate and calcium phosphate crystals induced in the urine of healthy and stone forming subjects | Q47725972 | ||
| Preparation and Properties of Serum and Plasma Proteins. IV. A System for the Separation into Fractions of the Protein and Lipoprotein Components of Biological Tissues and Fluids1a,b,c,d | Q47780219 | ||
| Intercalation of sea urchin proteins in calcite: study of a crystalline composite material | Q47891363 | ||
| Urinary Tamm-Horsfall glycoprotein in certain kidney diseases and its content in renal and bladder calculi | Q48002866 | ||
| Morphogenesis of calcitic sponge spicules: a role for specialized proteins interacting with growing crystals | Q57225496 | ||
| Uromucoid (Tamm-Horsfall glycoprotein) forms different polymeric arrangements on a filter surface under different physicochemical conditions | Q57740948 | ||
| Procoagulant activity in normal human urine associated with subcellular particles | Q57740960 | ||
| Fragmentation and polymeric complexes of albumin in human urine | Q57740967 | ||
| Calcium and collagen binding properties of osteopontin, bone sialoprotein, and bone acidic glycoprotein-75 from bone | Q67945573 | ||
| Inclusion of proteins into calcium oxalate crystals precipitated from human urine: a highly selective phenomenon | Q67975261 | ||
| A New Approach to the Study of Urinary Macromolecules as a Participant in Calcium Oxalate Crystallization | Q68295225 | ||
| A method for studying inhibitory activity in whole urine | Q70130947 | ||
| The urinary F1 activation peptide of human prothrombin is a potent inhibitor of calcium oxalate crystallization in undiluted human urine in vitro | Q70867100 | ||
| Further evidence linking urolithiasis and blood coagulation: urinary prothrombin fragment 1 is present in stone matrix | Q71122556 | ||
| Localization of tamm-horsfall protein and osteopontin in a rat nephrolithiasis model | Q71594425 | ||
| Immunocytochemical localization of Tamm-Horsfall protein in the kidneys of normal and nephrolithic rats | Q71690913 | ||
| Blood coagulation proteins and urolithiasis are linked: crystal matrix protein is the F1 activation peptide of human prothrombin | Q71884603 | ||
| Association of urinary macromolecules with calcium oxalate crystals induced in vitro in normal human and rat urine | Q71895064 | ||
| Fibronectin as a potent inhibitor of calcium oxalate urolithiasis | Q73062783 | ||
| Nucleation, adhesion, and internalization of calcium-containing urinary crystals by renal cells | Q73131834 | ||
| Changes in urine macromolecular composition during processing | Q73855817 | ||
| Tamm-Horsfall protein excretion and its relation to citrate in urine of stone-forming patients | Q74650190 | ||
| Cell-crystal interactions and kidney stone formation | Q77748371 | ||
| P433 | issue | 1 | |
| P921 | main subject | calcium oxalate | Q412399 |
| P304 | page(s) | 1-14 | |
| P577 | publication date | 2007-02-03 | |
| P1433 | published in | Urological Research | Q15746542 |
| P1476 | title | The importance of a clean face: the effect of different washing procedures on the association of Tamm-Horsfall glycoprotein and other urinary proteins with calcium oxalate crystals. | |
| P478 | volume | 35 |
| Q33987255 | A comparison of the binding of urinary calcium oxalate monohydrate and dihydrate crystals to human kidney cells in urine. |
| Q41915004 | Crystal sedimentation and stone formation |
| Q97545224 | Dietary Oxalate Induces Urinary Nanocrystals in Humans |
| Q37408555 | Face-specific binding of prothrombin fragment 1 and human serum albumin to inorganic and urinary calcium oxalate monohydrate crystals |
| Q42961358 | Face-specific incorporation of osteopontin into urinary and inorganic calcium oxalate monohydrate and dihydrate crystals |
| Q46597410 | High calcium concentration and calcium oxalate crystals cause significant inaccuracies in the measurement of urinary osteopontin by enzyme linked immunosorbent assay. |
| Q46278622 | Intracrystalline urinary proteins facilitate degradation and dissolution of calcium oxalate crystals in cultured renal cells. |
| Q24649072 | Modulation of calcium oxalate dihydrate growth by selective crystal-face binding of phosphorylated osteopontin and polyaspartate peptide showing occlusion by sectoral (compositional) zoning |
| Q33359977 | Proteomic analysis of renal calculi indicates an important role for inflammatory processes in calcium stone formation |
| Q84744662 | Role of osteopontin in early phase of renal crystal formation: immunohistochemical and microstructural comparisons with osteopontin knock-out mice |
| Q37206519 | Surface aggregation of urinary proteins and aspartic Acid-rich peptides on the faces of calcium oxalate monohydrate investigated by in situ force microscopy |
| Q39480917 | The effect of intracrystalline and surface-bound osteopontin on the attachment of calcium oxalate dihydrate crystals to Madin-Darby canine kidney (MDCK) cells in ultrafiltered human urine. |
| Q84965632 | The effect of intracrystalline and surface-bound osteopontin on the degradation and dissolution of calcium oxalate dihydrate crystals in MDCKII cells |
| Q33785784 | The effects of intracrystalline and surface-bound proteins on the attachment of calcium oxalate monohydrate crystals to renal cells in undiluted human urine |
| Q39024105 | What does the crystallography of stones tell us about their formation? |
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