Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0700208 (scoliosis)
 8,574 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In continuation of our previous work on one-dimensional (1D) proton nuclear magnetic resonance (1H-NMR) of normal and diseased human muscle extracts we recorded the two-dimensional (2D) J-correlated proton magnetic resonance spectra of these extracts. Significant differences between normal and diseased muscle extracts, not observed in the 1D 1H-NMR spectra, were seen from their 2D connectivity contour patterns. Taurine was not present in cerebral palsy muscle extract while both normal and scoliosis muscles contained this metabolite. Only the normal muscle had carnitine. Carnosine was present in all muscles. alpha-Ketoglutarate was found only in the diseased muscle extracts. While the amino acids lysine, cysteine and glutamine were common to normal and diseased muscles, threonine was seen only in the diseased muscles. Additional small differences were detected in the 2D patterns of human muscle extracts.
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PMID:Two-dimensional proton magnetic resonance of human muscle extracts. 302 79

The amounts of lysine-derived crosslinks in collagens from tendon, cartilage, intervertebral disc, and bone and changes in the composition of sternal cartilage glycosaminoglycans were estimated in two lines of chickens, a control-isogenic line and a line that develops scoliosis. In the scoliotic line, scoliosis first appears at 3-4 weeks and progressively increases in severity and incidence so that 90% of the birds express the lesion by week 10. We have reported previously that cartilage, tendon, and bone collagens from scoliotic birds are more soluble than corresponding collagens from normal birds. Herein, collagen crosslinking and altered proteoglycan metabolism are examined as possible mechanisms for the differences in collagen solubility. At 1 week of age there were fewer reducible crosslinking amino acids (hydroxylysinonorleucine, dihydroxylysinonorleucine, and lysinonorleucine) in collagens from sternal cartilage and tendon in the scoliotic line than in the isogenic line. However, by week 3 and at weeks 5 or 7 values were similar in both groups. The amounts of hydroxypyridinium in vertebral bone and intervertebral disc collagen were also similar in both groups of birds. Consequently, differences in collagen crosslinking do not appear to be a persistent developmental defect underlying the expression of scoliosis in the model. However, differences were observed in cartilage proteoglycans and glycosaminoglycans from the scoliotic line that were not present in cartilage from the isogenic line. The average molecular weight of the uronide-containing glycosaminoglycans was 30% less in the scoliotic line than in the isogenic line, i.e., 12,000 compared to 18,000. The size distribution of cartilage proteoglycans from the scoliotic line also differed from that of proteoglycans from the isogenic line.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Collagen crosslinking and cartilage glycosaminoglycan composition in normal and scoliotic chickens. 314 29

Cell culture studies were performed on members of a family in which two sisters, ages 9 and 12, have a similar disorder characterized clinically by severe scoliosis, joint laxity and recurrent dislocations, hyperextensible skin, and thin scars. The skin collagen from the sisters was markedly deficient in hydroxylysine, but other amino acids were present in normal amounts. Hydroxylysine in collagen from fascia and bone was reduced to a lesser extent. Since the most likely explanation for the hydroxylysine deficiency was a reduction in enzymatic hydroxylation of lysine residues in protocollagen, we measured the activity of lysyl-protocollagen hydroxylase in crude lysates of cultured skin fibroblasts. Enzyme activities in the two affected children were 14 and 10% of controls, whereas the activity was about 60% of normal in the mother, a pattern most consistent with autosomal recessive inheritance. The mutant enzyme demonstrated the same cofactor requirements as that from normal cells. Deficiency of lysyl-protocollagen hydroxylase is the first inborn error of human collagen metabolism to be defined at the biochemical level.
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PMID:Lysyl-protocollagen hydroxylase deficiency in fibroblasts from siblings with hydroxylysine-deficient collagen. 434 67

Acid-soluble and pepsin-soluble collagens have been isolated from spinal ligaments of normal and scoliotic individuals. Polyacrylamide gel electrophoresis of native and cyanogen bromide-treated collagens, and amino acid analysis, showed that the ligament collagen is almost all of the Type I variety with only trace amounts of Type III present. There was no evidence for abnormal ratios of collagen alpha-chains, or underhydroxylation of proline and lysine in the scoliotic ligament. These results indicate that collagen biochemistry is normal with respect to type, post-translational modification and cross-linking in spinal ligaments of patients with idiopathic scoliosis. Elastin and proteoglycan were only minor components of the ligaments. The nature of the non-collagenous part of the ligament is unknown, although it contains some proteins with a hydrophobic nature.
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PMID:Characterisation of collagen from normal and scoliotic human spinal ligament. 640 99