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941.
The genetic basis of most conditions characterized by congenital contractures is largely unknown. Here we show that mutations in the embryonic myosin heavy chain (MYH3) gene cause Freeman-Sheldon syndrome (FSS), one of the most severe multiple congenital contracture (that is, arthrogryposis) syndromes, and nearly one-third of all cases of Sheldon-Hall syndrome (SHS), the most common distal arthrogryposis. FSS and SHS mutations affect different myosin residues, demonstrating that MYH3 genotype is predictive of phenotype. A structure-function analysis shows that nearly all of the MYH3 mutations are predicted to interfere with myosin's catalytic activity. These results add to the growing body of evidence showing that congenital contractures are a shared outcome of prenatal defects in myofiber force production. Elucidation of the genetic basis of these syndromes redefines congenital contractures as unique defects of the sarcomere and provides insights about what has heretofore been a poorly understood group of disorders. 相似文献
942.
943.
Huet J Wyckmans J Wintjens R Boussard P Raussens V Vandenbussche G Ruysschaert JM Azarkan M Looze Y 《Cellular and molecular life sciences : CMLS》2006,63(24):3042-3054
Two chitinases, able to use tetra-N-acetylglucosamine, chitin and chitosan as substrates, were characterized after purification from Carica papaya latex. The complete amino acid sequence of the major form and about 40% of the minor one were determined through proteolytic
digestions and mass spectroscopy analysis. Sequencing demonstrated that both papaya chitinases are members of the family 19
of glycosyl hydrolases (GH19). Based on the known 3-D structures of other members of family GH19, it was expected that papaya
chitinases would adopt all-alpha structures. However, circular dichroism and infrared spectroscopy indicated, for the papaya
chitinases, a content of 15–20% of extended structures besides the expected 40% of alpha helices. Since the fully sequenced
papaya chitinase contains a large number of proline residues the possibility that papaya chitinase contains polyproline II
stretches was examined in the context of their resistance against proteolytic degradation.
Received 11 July 2006; received after revision 13 October 2006; accepted 25 October 2006 相似文献
944.
Snake envenomation is a socio-medical problem of considerable magnitude. About 2.5 million people are bitten by snakes annually,
more than 100,000 fatally. However, although bites can be deadly, snake venom is a natural biological resource that contains
several components of potential therapeutic value. Venom has been used in the treatment of a variety of pathophysiological
conditions in Ayurveda, homeopathy and folk medicine. With the advent of biotechnology, the efficacy of such treatments has
been substantiated by purifying components of venom and delineating their therapeutic properties. This review will focus on
certain snake venom components and their applications in health and disease.
Received 6 July 2006; received after revision 14 August 2006; accepted 28 September 2006 相似文献
945.
Kramer J Böhrnsen F Lindner U Behrens P Schlenke P Rohwedel J 《Cellular and molecular life sciences : CMLS》2006,63(5):616-626
Microfracture of subchondral bone results in intrinsic repair of cartilage defects. Stem or progenitor cells from bone marrow
have been proposed to be involved in this regenerative process. Here, we demonstrate for the first time that mesenchymal stem
(MS) cells can in fact be recovered from matrix material saturated with cells from bone marrow after microfracture. This also
introduces a new technique for MS cell isolation during arthroscopic treatment. MS cells were phenotyped using specific cell
surface antibodies. Differentiation of the MS cells into the adipogenic, chondrogenic and osteogenic lineage could be demonstrated
by cultivation of MS cells as a monolayer, as micromass bodies or mesenchymal microspheres. This study demonstrates that MS
cells can be attracted to a cartilage defect by guidance of a collagenous matrix after perforating subchondral bone. Protocols
for application of MS cells in restoration of cartilage tissue include an initial invasive biopsy to obtain the MS cells and
time-wasting in vitro proliferation and possibly differentiation of the cells before implantation. The new technique already includes attraction
of MS cells to sites of cartilage defects and therefore may overcome the necessity of in vitro proliferation and differentiation of MS cells prior to transplantation.
Received 3 November 2005; received after revision 15 December 2005; accepted 4 January 2006 相似文献
946.
Myelin basic protein: a multifunctional protein 总被引:1,自引:1,他引:0
Boggs JM 《Cellular and molecular life sciences : CMLS》2006,63(17):1945-1961
Myelin basic protein (MBP), the second most abundant protein in central nervous system myelin, is responsible for adhesion
of the cytosolic surfaces of multilayered compact myelin. A member of the ‘intrinsically disordered’ or conformationally adaptable
protein family, it also appears to have several other functions. It can interact with a number of polyanionic proteins including
actin, tubulin, Ca2+-calmodulin, and clathrin, and negatively charged lipids, and acquires structure on binding to them. It may act as a membrane
actin-binding protein, which might allow it to participate in transmission of extracellular signals to the cytoskeleton in
oligodendrocytes and tight junctions in myelin. Some size isoforms of MBP are transported into the nucleus and thus they may
also bind polynucleotides. Extracellular signals received by myelin or cultured oligodendrocytes cause changes in phosphorylation
of MBP, suggesting that MBP is also involved in signaling. Further study of this very abundant protein will reveal how it
is utilized by the oligodendrocyte and myelin for different purposes.
Received 2 March 2006; received after revision 12 April 2006; accepted 16 May 2006 相似文献
947.
Based on the classification of bacterial lipolytic enzymes, family I.3 lipase is a member of the large group of Gram-negative
bacterial true lipases. This lipase family is distinguished from other families not only by the amino acid sequence, but also
by the secretion mechanism. Lipases of family I.3 are secreted via the well-known type I secretion system. Like most of proteins
secreted via this system, family I.3 lipases are composed of two domains with distinct yet related functions. Recent years
have seen an increasing amount of research on this lipase family, in terms of isolation, secretion mechanism, as well as biochemical
and biophysical studies. This review describes our current knowledge on the structure-function relationships of family I.3
lipase, with an emphasis on its secretion mechanism.
Received 18 April 2006; received after revision 3 July 2006; accepted 24 August 2006 相似文献
948.
Phytanic acid is a branched-chain fatty acid that accumulates in a variety of metabolic disorders. High levels of phytanic
acid found in patients can exceed the millimolar range and lead to severe symptoms. Degradation of phytanic acid takes place
by α-oxidation inside the peroxisome. A deficiency of its breakdown, leading to elevated levels, can result from either a
general peroxisomal dysfunction or from a defect in one of the enzymes involved in α-oxidation. Research on Refsum disease,
belonging to the latter group of disorders and characterized by a deficiency of the first enzyme of α-oxidation, has extended
our knowledge of phytanic acid metabolism and pathology of the disease greatly over the past few decades. This review will
centre on this research on phytanic acid: its origin, the mechanism by which its α-oxidation takes place, its role in human
disease and the way it is produced from phytol.
Received 4 October 2005; received after revision 24 February 2006; accepted 26 April 2006 相似文献
949.
McTaggart SJ 《Cellular and molecular life sciences : CMLS》2006,63(3):255-267
Isoprenoids are synthesized in all living organisms and are incorporated into diverse classes of end-products that participate
in a multitude of cellular processes relating to cell growth, differentiation, cytoskeletal function and vesicle trafficking.
In humans, the non-sterol isoprenoids, farnesyl pyrophosphate and geranylgeranyl-pyrophosphate, are synthesized via the mevalonate
pathway and are covalently added to members of the small G protein superfamily. Isoprenylated proteins have key roles in membrane
attachment and protein functionality, have been shown to have a central role in some cancers and are likely also to be involved
in the pathogenesis and progression of atherosclerosis and Alzheimer disease. This review details current knowledge on the
biosynthesis of isoprenoids, their incorporation into proteins by the process known as prenylation and the complex regulatory
network that controls these proteins. An improved understanding of these processe is likely to lead to the development of
novel therapies that will have important implications for human health and disease.
Received 5 July 2005; received after revision 17 October 2005; accepted 22 October 2005 相似文献
950.
Memories become stabilized through a time-dependent process that requires gene expression and is commonly known as consolidation. During this time, memories are labile and can be disrupted by a number of interfering events, including electroconvulsive shock, trauma and other learning or the transient effect of drugs such as protein synthesis inhibitors. Once consolidated, memories are insensitive to these disruptions. However, they can again become fragile if recalled or reactivated. Reactivation creates another time-dependent process, known as reconsolidation, during which the memory is restabilized. Here we discuss some of the questions currently debated in the field of memory consolidation and reconsolidation, the molecular and anatomical requirements for both processes and, finally, their functional relationship. 相似文献