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Audus LJ (1962) The mechanism of the perception of gravity by plants. Symposia Society for Experimental Biology16: 197–226AudusLJ1962The mechanism of the perception of gravity by plantsSymposia Society for Experimental Biology16197226Search in Google Scholar
Çiftçioglu N, Haddad SR, Golden DC, Morrison RD, McKay D (2005) A potential cause for kidney stone formation during spaceflights: enhanced growth of nanobacteria in microgravity. Kidney International67: 483–491ÇiftçiogluNHaddadSRGoldenDCMorrisonRDMcKayD2005A potential cause for kidney stone formation during spaceflights: enhanced growth of nanobacteria in microgravityKidney International67483491Search in Google Scholar
da Costa LM, Tronto J, Constantino VRL, Fonseca MKA, Oliveria AP, da Costa MR (2009) Extraction and concentration of biogenic calcium oxalate from plant leaves. Revista Brasileira de Ciência do Solo33: 729–733da CostaLMTrontoJConstantinoVRLFonsecaMKAOliveriaAPda CostaMR2009Extraction and concentration of biogenic calcium oxalate from plant leavesRevista Brasileira de Ciência do Solo33729733Search in Google Scholar
Dempsey EF, Forbes AP, Melick RA, Henneman PH (1960) Urinary oxalate excretion. Metabolism9: 52–58DempseyEFForbesAPMelickRAHennemanPH1960Urinary oxalate excretionMetabolism95258Search in Google Scholar
Drinnan NRT, Begougne de Juniac A (2013) The effects of microgravity on the urological system: a review. Journal of Clinical Urology6: 391–394DrinnanNRTBegougne de JuniacA2013The effects of microgravity on the urological system: a reviewJournal of Clinical Urology6391394Search in Google Scholar
Franceschi RV, Horner TH (1980) Calcium oxalate crystals in plants. Botanical Review46(4): 364–411FranceschiRVHornerTH1980Calcium oxalate crystals in plantsBotanical Review464364411Search in Google Scholar
Hagler L, Herman RH (1973) Oxalate metabolism. I. American Journal of Clinical Nutrition26: 758–765HaglerLHermanRH1973Oxalate metabolism. IAmerican Journal of Clinical Nutrition26758765Search in Google Scholar
Hernandez-Santana A, Yavorsky A, Loughran ST, McCarthy GM, McMahon GP (2011) New approaches in the detection of calcium-containing microcrystals in synovial fluid. Bioanalysis3(10): 1085–1091Hernandez-SantanaAYavorskyALoughranSTMcCarthyGMMcMahonGP2011New approaches in the detection of calcium-containing microcrystals in synovial fluidBioanalysis31010851091Search in Google Scholar
Jung T, Kim JN, Kim WS, Choi CK (2011) Study of polymeric additive effect on calcium oxalate dihydrate crystal growth using real-time atomic force microscopy. Journal of Crystal Growth327: 167–172JungTKimJNKimWSChoiCK2011Study of polymeric additive effect on calcium oxalate dihydrate crystal growth using real-time atomic force microscopyJournal of Crystal Growth327167172Search in Google Scholar
Korth KL, Doege SJ, Park SH, Goggin FL, Wang Q, Gomez SK, Liu G, Jia L, Nakata PA (2006) Medicago truncatula mutants demonstrate the role of plant calcium oxalate crystals as an effective defense against chewing insects. Plant Physiology141: 188–195KorthKLDoegeSJParkSHGogginFLWangQGomezSKLiuGJiaLNakataPA2006Medicago truncatula mutants demonstrate the role of plant calcium oxalate crystals as an effective defense against chewing insectsPlant Physiology141188195Search in Google Scholar
Miyamoto A, Shigematsu T, Fukunaga T, Kawakami K, Mukai C, Sekiguchi C (1998) Medical baseline data collection on bone and muscle change with spaceflight. Bone22(5): 79S–82SMiyamotoAShigematsuTFukunagaTKawakamiKMukaiCSekiguchiC1998Medical baseline data collection on bone and muscle change with spaceflightBone22579S82SSearch in Google Scholar
Monje PV, Baran EJ (2002) Characterization of calcium oxalates generated as biominerals in cacti. Plant Physiology128: 707–713MonjePVBaranEJ2002Characterization of calcium oxalates generated as biominerals in cactiPlant Physiology128707713Search in Google Scholar
Peerapen P, Thongboonkerd V (2011) Effects of calcium oxalate monohydrate crystals on expression and function of tight junction of renal tubular epithelial cell. Laboratory Investigation91: 97–105PeerapenPThongboonkerdV2011Effects of calcium oxalate monohydrate crystals on expression and function of tight junction of renal tubular epithelial cellLaboratory Investigation9197105Search in Google Scholar
Petrova EV, Gvozdev NV, Rashkovich LN (2004) Growth and dissolution of calcium oxalate monohydrate (COM) crystals. Journal of Optoelectronics and Advanced Materials6(1): 261–268PetrovaEVGvozdevNVRashkovichLN2004Growth and dissolution of calcium oxalate monohydrate (COM) crystalsJournal of Optoelectronics and Advanced Materials61261268Search in Google Scholar
Raven HP, Evert FR, Eichhorn ES (2005) Biology of Plants, Seventh edn, pp 46, 471, 515. New York: WH Freeman and CompanyRavenHPEvertFREichhornES2005Biology of PlantsSeventh edn46471515New YorkWH Freeman and CompanySearch in Google Scholar
Smith SM, Wastney ME, O’Brien KO, Morukov BV, Larina IM, Abrams SA, Davis-Street JE, Oganov V, Shackelford LC (2005) Bone markers, calcium metabolism, and calcium kinetics during extended-duration spaceflight on the Mir space station. Journal of Bone and Mineral Research20(2): 208–218SmithSMWastneyMEO’BrienKOMorukovBVLarinaIMAbramsSADavis-StreetJEOganovVShackelfordLC2005Bone markers, calcium metabolism, and calcium kinetics during extended-duration spaceflight on the Mir space stationJournal of Bone and Mineral Research202208218Search in Google Scholar
Wesson JA, Worcester EM, Wiessner JH, Mandel NS, Kleinman JG (1998) Control of calcium oxalate structure and cell adherence by urinary macromolecules. Kidney International53: 952–957WessonJAWorcesterEMWiessnerJHMandelNSKleinmanJG1998Control of calcium oxalate structure and cell adherence by urinary macromoleculesKidney International53952957Search in Google Scholar
Whedon GD, Rambaut PC (2006) Effects of long-duration spaceflight on calcium metabolism: review of human studies from Skylab to present. Acta Astronautica58: 59–81WhedonGDRambautPC2006Effects of long-duration spaceflight on calcium metabolism: review of human studies from Skylab to presentActa Astronautica585981Search in Google Scholar
Whitson PA, Pietrzyk RA, Morukov BV, Sams CF (2001) The risk of renal stone formation during and after long duration spaceflight. Nephron89: 264–270WhitsonPAPietrzykRAMorukovBVSamsCF2001The risk of renal stone formation during and after long duration spaceflightNephron89264270Search in Google Scholar
Whitson PA, Pietrzyk RA, Pak CYC (1997) Renal stone risk assessment during space shuttle flights. The Journal of Urology158(6): 2305–2310WhitsonPAPietrzykRAPakCYC1997Renal stone risk assessment during space shuttle flightsThe Journal of Urology158623052310Search in Google Scholar
Whitson PA, Pietrzyk RA, Sams CF (1999) Spaceflight and the risk of renal stones. Journal of Gravitational Physiology6(1): 87–88WhitsonPAPietrzykRASamsCF1999Spaceflight and the risk of renal stonesJournal of Gravitational Physiology618788Search in Google Scholar
Zerwekh JE (2002) Nutrition and renal stone disease in space. Nutrition18: 857–863ZerwekhJE2002Nutrition and renal stone disease in spaceNutrition18857863Search in Google Scholar
