scholarly article | Q13442814 |
P356 | DOI | 10.1007/BF00334333 |
P698 | PubMed publication ID | 8082056 |
P2093 | author name string | M Roberts | |
L V Avioli | |||
L Rifas | |||
L R Halstead | |||
L L Dawson | |||
P2860 | cites work | X-linked hypophosphatemia: the mutant gene is expressed in teeth as well as in kidney | Q30501675 |
Hypophosphatemia: mouse model for human familial hypophosphatemic (vitamin D-resistant) rickets | Q35044977 | ||
Primary cultures of renal epithelial cells from X-linked hypophosphatemic (Hyp) mice express defects in phosphate transport and vitamin D metabolism | Q35246892 | ||
X-linked hypophosphatemic rickets: a study (with literature review) of linear growth response to calcitriol and phosphate therapy | Q35436986 | ||
Crosstransplantation of kidneys in normal and Hyp mice. Evidence that the Hyp mouse phenotype is unrelated to an intrinsic renal defect | Q35601830 | ||
Acidic phosphoproteins from bone matrix: a structural rationalization of their role in biomineralization | Q36169038 | ||
Evidence for an Intrinsic Renal Tubular Defect in Mice with Genetic Hypophosphatemic Rickets | Q37038611 | ||
Voltage-dependent phosphate transport in osteoblast-like cells | Q38332585 | ||
Osteomalacia and altered magnesium metabolism in the X-linked hypophosphatemic mouse | Q39676044 | ||
Healing of rickets with phosphate supplementation in the hypophosphatemic male mouse | Q40683185 | ||
Defective bone formation by transplanted Hyp mouse bone cells into normal mice | Q41429487 | ||
Abnormal tubular adaptation to dietary Pi restriction in X-linked hypophosphatemic mice | Q41609936 | ||
Stimulation by parathyroid hormone-related protein and transforming growth factor-α of phosphate transport in osteoblast-like cells | Q41659264 | ||
31P NMR and saturation transfer studies of the effect of Pb2+ on cultured osteoblastic bone cells | Q41711003 | ||
Protein kinase C in mouse kidney: effect of the Hyp mutation and phosphate deprivation | Q42024533 | ||
Bone matrix mRNA expression in differentiating fetal bovine osteoblasts | Q42462360 | ||
Characterization of the defect in the Na(+)-phosphate transporter in vitamin D-resistant hypophosphatemic mice | Q43599148 | ||
Regulation of Na-dependent Pi transport by parathyroid hormone in osteoblast-like cells | Q43766918 | ||
Characteristics of phosphate transport in osteoblastlike cells | Q43858164 | ||
Bone growth in organ culture: Effects of phosphate and other nutrients on bone and cartilage | Q44290942 | ||
X-linked hypophosphatemia in adults: prevalence of skeletal radiographic and scintigraphic features | Q44527260 | ||
Defective bone formation by hyp mouse bone cells transplanted into normal mice: Evidence in favor of an intrinsic osteoblast defect | Q45678116 | ||
Relation between hypomineralized periosteocytic lesions and bone mineralization in vitamin D-resistant rickets | Q46277347 | ||
Factors influencing synthesis and mineralization of bone matrix from fetal bovine bone cells grown in vitro | Q46296972 | ||
Transport of phosphate by plasma membranes of the jejunum and kidney of the mouse model of hypophosphatemic vitamin D-resistant rickets. | Q54236152 | ||
Renal brush border membrane adaptation to phosphorus deprivation in the Hyp/Y mouse | Q59070267 | ||
Effect of dietary phosphate deprivation and supplementation of recipient mice on bone formation by transplanted cells from normal and X‐linked hypophosphatemic mice | Q67490777 | ||
Renal na+‐phosphate cotransport in X‐linked hyp mice responds appropriately to NA+ gradient, membrane potential, and pH | Q67490781 | ||
Characterization of osteoblast-like cells from normal adult rat femoral trabecular bone | Q67753633 | ||
Parabiosis suggests a humoral factor is involved in X-linked hypophosphatemia in mice | Q69800704 | ||
Response of tissue phosphate content to acute dietary phosphate deprivation in the X-linked hypophosphatemic mouse | Q69963750 | ||
Defective adaptation to a low phosphate environment by cultured renal tubular cells from X-linked hypophosphatemic (Hyp) mice | Q70178075 | ||
Normal handling of phosphate in the salivary glands of X-linked hypophosphataemic mice | Q70975971 | ||
The collagen crosslinking in the hypophosphatemic male mouse | Q71532690 | ||
Intestinal malabsorption of 45calcium in young Gy mice, a second model for X-linked hypophosphatemia | Q72671368 | ||
Effect of phosphonoformic acid, dietary phosphate and the Hyp mutation on kinetically distinct phosphate transport processes in mouse kidney | Q93517143 | ||
P433 | issue | 6 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | osteoblast | Q917177 |
P304 | page(s) | 505-510 | |
P577 | publication date | 1994-06-01 | |
P1433 | published in | Calcified Tissue International | Q5018771 |
P1476 | title | Phosphate transport in osteoblasts from normal and X-linked hypophosphatemic mice. | |
P478 | volume | 54 |
Q72049860 | Altered osteoblast gluconeogenesis in X-linked hypophosphatemic mice is associated with a depressed intracellular pH |
Q36316563 | Connexin43 deficiency causes delayed ossification, craniofacial abnormalities, and osteoblast dysfunction |
Q35983157 | Correction of the mineralization defect in hyp mice treated with protease inhibitors CA074 and pepstatin |
Q24648401 | Degradation of MEPE, DMP1, and release of SIBLING ASARM-peptides (minhibins): ASARM-peptide(s) are directly responsible for defective mineralization in HYP |
Q36660359 | Gestational exposure to ethanol suppresses msx2 expression in developing mouse embryos. |
Q40590136 | MEPE has the properties of an osteoblastic phosphatonin and minhibin. |
Q28236776 | New perspectives on the biology and treatment of X-linked hypophosphatemic rickets |
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