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Large complex globular domains of type VII procollagen contribute to the structure of anchoring fibrils 总被引:18,自引:0,他引:18
G P Lunstrum L Y Sakai D R Keene N P Morris R E Burgeson 《The Journal of biological chemistry》1986,261(19):9042-9048
Type VII collagen, in the form of an antiparallel dimer, is a major protein component of anchoring fibrils. The ultrastructural appearance of these fibrils suggests that they may serve to anchor the basement membrane zone to the underlying connective tissue matrix. We report here the identification and initial characterization of Type VII procollagen, recovered from the media of epidermoid carcinoma cell cultures. Immunoblotting using monospecific antibodies to Type VII procollagen identifies a single, homogeneous band of at least Mr 320,000 following disulfide bond reduction. This chain contains 170 kDa of collagen triple helix and 150 kDa of non-helical domain at the carboxyl terminus. Pepsin digestion of this material yields Type VII collagen identical to that isolated from whole tissue and a series of quasi-stable peptides derived from the carboxyl-terminal region. Cell extracts contain procollagen chains identical in size to those secreted into the media. There is no evidence for processing of this material in cell culture. Partial purification by velocity sedimentation and transmission electron microscopic observation following rotary shadowing reveals both monomers (426 nm) and dimers (785 nm). Dimers are antiparallel and interact through 60-nm overlap, with amino-terminal globular domains present at the ends of the overlap. The multi-domain carboxyl-terminal region appears as three similar arms originating from a centralized globular region adjacent to the collagen helix. The carboxyl globular domain is present in whole tissue and may participate in the unique fibril form of this collagen. The amino-terminal globule may function in the antiparallel assembly of dimers. 相似文献
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Characterization of de novo duplications in eight patients by using fluorescence in situ hybridization with chromosome-specific DNA libraries. 下载免费PDF全文
J Leana-Cox S Levin R Surana E Wulfsberg C L Keene L J Raffel B Sullivan S Schwartz 《American journal of human genetics》1993,52(6):1067-1073
Fluorescence in situ hybridization (FISH) with chromosome-specific DNA libraries was performed on samples from eight patients with de novo chromosomal duplications. In five cases, the clinical phenotype and/or cytogenetic evaluations suggested a likely origin of the duplicated material. In the remaining three cases, careful examination of the GTG-banding pattern indicated multiple possible origins; hybridization with more than one chromosome-specific library was performed on two of these cases. In all cases, FISH conclusively identified the chromosomal origin of the duplicated material. In addition, the hybridization pattern was useful in quantitatively delineating the duplication in two cases. 相似文献
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Two type XII-like collagens localize to the surface of banded collagen fibrils 总被引:8,自引:6,他引:2 下载免费PDF全文
D R Keene G P Lunstrum N P Morris D W Stoddard R E Burgeson 《The Journal of cell biology》1991,113(4):971-978
Two recently identified collagen molecules, termed twelve-like A and twelve-like B (TL-A and TL-B) have properties similar to type XII collagen. These molecules have been localized in human and calf tissues by immunoelectron microscopy. The observations strongly suggest that both molecules are located along the surface of banded collagen fibers. The epitopes recognized by the antibodies are contained in large, nontriple-helical domains at one end of the collagen helix. The epitopes are visualized at a distance from the surface of the banded fibers roughly equal to the length of the nonhelical domains, suggesting that the nonhelical domains extend from the fibril, while the triple-helical domains are likely to bind directly to the fibril surface. Occasionally, both TL-A and TL-B demonstrate periodic distribution along the fibril surface. The period corresponds to the primary interband distance of the banded fibrils. Not all fibrils in a fiber bundle are labeled, nor is the labeling continuous along the length of labeled fibrils. Simultaneous labeling of TL-A and type VI collagen only rarely shows colocalization, suggesting that TL-A and TL-B do not mediate interactions between the type VI collagen beaded filaments and banded collagen fibrils. Also, interfibrillar distances are approximately equivalent in the presence and absence of these type XII-like molecules. While the results do not directly indicate a specific function for these molecules, the localization at the fibril surface suggests that they mediate interactions between the fibrils and other matrix macromolecules or with cells. 相似文献
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Summary During late spring, 1987, observations were made of nitrate and ammonium uptake in two regions of the Greenland Sea, the Arctic Front and the Polar Front. In the area of the Arctic Front, mixed layers were relatively deep (generally below 100m), and the 1% isolume averaged 35 m. Ambient nitrate concentrations were always greater than 6 M, whereas ammonium levels were always less than 0.6 M. Surface nitrate and ammonium specific uptake rates averages 4.4 and 2.3×10–3 h–1, respectively. The Polar Front generally coincided spatially with the location of the ice edge, and vertical mixed layers were shallow (pycnocline depth ranged from 8–14 m), and the 1 % isolume averaged 37 m. Nitrate concentrations were somewhat lower than in the Arctic Front, but remained above 3 M at all times. Ammonium levels reached 1.2 M. Nitrate and ammonium specific uptake rates at the surface averaged 4.8×10–3 and 10×10–3 h–1, respectively. Integrated water column f-ratios for the Arctic and Polar Front regions averaged 0.63 and 0.31, and the ammonium relative preference indices at all depths within each study area were always greater than 8, indicating that ammonium remained the preferred nitrogen source for phytoplankton. New production in the two regions was approximately equal, but the Polar Front had a substantially greater amount of regenerated production, and hence total production as well. Irradiance (and not nutrient concentration) seems to be the most important environmental factor in controlling nitrogen uptake. The spatial variability observed within the Greenland Sea suggest that inclusion of this region in global carbon models will require increased spatial resolution of both the models and the data included. 相似文献
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Binding of the low-density lipoprotein by streptococcal collagen-like protein Scl1 of Streptococcus pyogenes 总被引:1,自引:0,他引:1
Han R Caswell CC Lukomska E Keene DR Pawlowski M Bujnicki JM Kim JK Lukomski S 《Molecular microbiology》2006,61(2):351-367
Several bacterial genera express proteins that contain collagen-like regions, which are associated with variable (V) non-collagenous regions. The streptococcal collagen-like proteins, Scl1 and Scl2, of group A Streptococcus (GAS) are members of this 'prokaryotic collagen' family, and they too contain an amino-terminal non-collagenous V region of unknown function. Here, we use recombinant rScl constructs, derived from several Scl1 and Scl2 variants, and affinity chromatography to identify Scl ligands present in human plasma. First, we show that Scl1, but not Scl2, proteins from different GAS serotypes bind the same ligand identified as apolipoprotein B (ApoB100), which is a major component of the low-density lipoprotein (LDL). Scl1 binding to purified ApoB100 and LDL is specific and concentration-dependent. Furthermore, the non-collagenous V region of the Scl1 protein is responsible for LDL/ApoB100 binding because only those rScls, constructed by domain swapping, which contain the V region from Scl1 proteins, were able to bind to ApoB100 and LDL ligands, and this binding was inhibited by antibodies directed against the Scl1-V region. Electron microscopy images of Scl1-LDL complexes showed that the globular V domain of Scl1 interacted with spherical particles of LDL. Importantly, live M28-type GAS cells absorbed plasma LDL on the cell surface and this binding depended on the surface expression of the Scl1.28, but not Scl2.28, protein. Phylogenetic analysis showed that the non-collagenous globular domains of Scl1 and Scl2 evolved independently to form separate lineages, which differ in amino acid sequence, and these differences may account for the variations in binding patterns of Scl1 and Scl2 proteins. Present studies provide insight into the structure-function relationship of the Scl proteins and also underline the importance of lipoprotein binding by GAS. 相似文献
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Elena Pokidysheva Keith D. Zientek Yoshihiro Ishikawa Kazunori Mizuno Janice A. Vranka Nathan T. Montgomery Douglas R. Keene Tatsuya Kawaguchi Kenji Okuyama Hans Peter B?chinger 《The Journal of biological chemistry》2013,288(34):24742-24752
Type I collagen extracted from tendon, skin, and bone of wild type and prolyl 3-hydroxylase 1 (P3H1) null mice shows distinct patterns of 3-hydroxylation and glycosylation of hydroxylysine residues. The A1 site (Pro-986) in the α1-chain of type I collagen is almost completely 3-hydroxylated in every tissue of the wild type mice. In contrast, no 3-hydroxylation of this proline residue was found in P3H1 null mice. Partial 3-hydroxylation of the A3 site (Pro-707) was present in tendon and bone, but absent in skin in both α-chains of the wild type animals. Type I collagen extracted from bone of P3H1 null mice shows a large reduction in 3-hydroxylation of the A3 site in both α-chains, whereas type I collagen extracted from tendon of P3H1 null mice shows little difference as compared with wild type. These results demonstrate that the A1 site in type I collagen is exclusively 3-hydroxylated by P3H1, and presumably, this enzyme is required for the 3-hydroxylation of the A3 site of both α-chains in bone but not in tendon. The increase in glycosylation of hydroxylysine in P3H1 null mice in bone was found to be due to an increased occupancy of normally glycosylated sites. Despite the severe disorganization of collagen fibrils in adult tissues, the D-period of the fibrils is unchanged. Tendon fibrils of newborn P3H1 null mice are well organized with only a slight increase in diameter. The absence of 3-hydroxyproline and/or the increased glycosylation of hydroxylysine in type I collagen disturbs the lateral growth of the fibrils. 相似文献