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391.
Untangling the molecular nature of sperm-egg interactions is fundamental if we are to understand fertilization. These phenomena
have been studied for many years using biochemical approaches such as antibodies and ligands that interact with sperm or with
eggs and their vestments. However, when homologous genetic recombination techniques were applied, most of the phenotypic factors
of the gene-manipulated animals believed “essential” for fertilization were found to be dispensable. Of course, all biological
systems contain redundancies and compensatory mechanisms, but as a whole the old model of fertilization clearly requires significant
modification. In this review, we use the results of gene manipulation experiments in animals to propose the basis for a new
vision.
Received 26 January 2007; received after revision 7 March 2007; accepted 17 April 2007 相似文献
392.
The development and maturation of an oligodendroglial cell is comprised of three intimately related processes that include proliferation, differentiation, and myelination. Here we review how proliferation and differentiation are controlled by distinct molecular mechanisms and discuss whether differentiation is merely a default of inhibited proliferation. We then address whether differentiation and myelination can be uncoupled in a similar manner. This task is particularly challenging because an oligodendrocyte cannot myelinate without first differentiating, and these processes are therefore not mutually exclusive. Is it solely the presence of the axon that distinguishes a differentiated oligodendrocyte from a myelinating one? Uncoupling these two processes requires identifying specific signals that regulate myelination without affecting the differentiation process. We will review current understanding of the relationship between differentiation and myelination and discuss whether these two processes can truly be uncoupled. 相似文献
393.
Minagawa H Yoshida Y Kenmochi N Furuichi M Shimada J Kaneko H 《Cellular and molecular life sciences : CMLS》2007,64(1):77-81
Lactate oxidase is used in biosensors to measure the concentration of lactate in the blood and other body fluids. Increasing
the thermostability of lactate oxidase can significantly prolong the lifetime of these biosensors. We have previously obtained
a variant of lactate oxidase from Aerococcus viridans with two mutations (E160G/V198I) that is significantly more thermostable than the wild-type enzyme. Here we have attempted
to further improve the thermostability of E160G/V198I lactate oxidase using directed evolution. We made a mutant lactate oxidase
gene library by applying error-prone PCR and DNA shuffling, and screened for thermostable mutant lactate oxidase using a plate-based
assay. After three rounds of screening we obtained a thermostable mutant lactate oxidase, which has six mutations (E160G/V198I/G36S/T103S/A232S/F277Y).
The half-life of this lactate oxidase at 70 °C was about 2 times that of E160G/V198I and about 36 times that of the wild-type
enzyme. The amino acid mutation process suggests that the combined neutral mutations are important in protein evolution.
Received 15 September 2006; received after revision 21 October 2006; accepted 2 November 2006 相似文献
394.
Hunt MC Greene S Hultenby K Svensson LT Engberg S Alexson SE 《Cellular and molecular life sciences : CMLS》2007,64(12):1558-1570
Acyl-CoA thioesterases (ACOTs) catalyze the hydrolysis of acyl-CoAs to free fatty acids and coenzyme A. Recent studies have
demonstrated that one gene named Acot7, reported to be mainly expressed in brain and testis, is transcribed in several different isoforms by alternative usage of
first exons. Strongly decreased levels of ACOT7 activity and protein in both mitochondria and cytosol was reported in patients
diagnosed with fatty acid oxidation defects, linking ACOT7 function to regulation of fatty acid oxidation in other tissues.
In this study, we have identified five possible first exons in mouse Acot7 (Acot7a–e) and show that all five first exons are transcribed in a tissue-specific manner. Taken together, these data show that the
Acot7 gene is expressed as multiple isoforms in a tissue-specific manner, and that expression in tissues other than brain and testis
is likely to play important roles in fatty acid metabolism.
Received 5 February 2007: received after revision 3 April 2007; accepted 19 April 2007 相似文献
395.
Crnković-Mertens I Wagener N Semzow J Gröne EF Haferkamp A Hohenfellner M Butz K Hoppe-Seyler F 《Cellular and molecular life sciences : CMLS》2007,64(9):1137-1144
Cancer cells are typically characterized by apoptosis deficiency. In order to investigate a possible role for the anti-apoptotic
livin gene in renal cell cancer (RCC), we analyzed its expression in tumor tissue samples and in RCC-derived cell lines. In addition,
we studied the contribution of livin to the apoptotic resistance of RCC cells by RNA interference (RNAi). Livin gene expression was detected in a significant portion of RCC tumor tissue specimens (13/14, 92.9%) and tumor-derived cell
lines (12/15, 80.0%). Moreover, targeted inhibition of livin by RNAi markedly sensitized RCC cells towards proapoptotic stimuli, such as UV irradiation or the chemotherapeutic drugs
etoposide, 5-fluorouracil, and vinblastine. These effects were specific for livin expressing tumor cells. We conclude that livin can contribute significantly to the apoptosis resistance of RCC cells. Targeted inhibition of livin could represent a novel therapeutic strategy to increase the sensitivity of renal cancers towards pro-apoptotic agents.
Received 30 November 2006; received after revision 22 February 2007; accepted 20 March 2007 相似文献
396.
Infection of bacteria triggers innate immune defense reactions in Drosophila. So far, the only bacterial component known to be recognized by the insect innate immune system is peptidoglycan, one of
the most abundant constituents of the bacterial cell wall. Insects use peptidoglycan recognition proteins to detect peptidoglycan
and to activate innate immune responses. Such specialized peptidoglycan receptors appear to have evolved from phage enzymes
that hydrolyze bacterial cell walls. They are able to bind specific peptidoglycan molecules with distinct chemical moieties
and activate innate immune pathways by interacting with other signaling proteins. Recent X-ray crystallographic studies of
the peptidoglycan recognition proteins LCa, and LCx bound to peptidoglycan have provided structural insights into recognition
of peptidoglycan and activation of innate immunity in insects.
Received 28 December 2006; received after revision 2 February 2007; accepted 21 February 2007 相似文献
397.
The study of candidate genes over the past three decades has yielded notable successes in common-disease genetics. During
this time, however, interpretation of genetic association studies has been hampered by the use of clinical cohorts of inadequate
power and insufficient information on genetic variation in candidate genes. The unavailability of highthroughput and low-cost
genotyping technologies has also limited the scope of complex-disease genetic studies. More recently, however, the sequencing
and characterization of variation within the human genome has revolutionized genetic studies and enabled full genome-wide
scans for genes associated with disease. The identification of disease-associated (causative) genes has illuminated disease
mechanisms. The translation of this knowledge into direct clinical benefit in diagnosis, prognosis and therapy for an individual’s
disease still remains a challenge.
Received 11 September 2006; received after revision 17 December 2006; accepted 18 January 2007 相似文献
398.
399.
Pyruvate dehydrogenase kinase regulatory mechanisms and inhibition in treating diabetes, heart ischemia, and cancer 总被引:2,自引:2,他引:0
The fraction of pyruvate dehydrogenase complex (PDC) in the active form is reduced by the activities of dedicated PD kinase
isozymes (PDK1, PDK2, PDK3 and PDK4). Via binding to the inner lipoyl domain (L2) of the dihydrolipoyl acetyltransferase (E2
60mer), PDK rapidly access their E2-bound PD substrate. The E2-enhanced activity of the widely distributed PDK2 is limited
by dissociation of ADP from its C-terminal catalytic domain, and this is further slowed by pyruvate binding to the N-terminal
regulatory (R) domain. Via the reverse of the PDC reaction, NADH and acetyl-CoA reductively acetylate lipoyl group of L2,
which binds to the R domain and stimulates PDK2 activity by speeding up ADP dissociation. Activation of PDC by synthetic PDK
inhibitors binding at the pyruvate or lipoyl binding sites decreased damage during heart ischemia and lowered blood glucose
in insulin-resistant animals. PDC activation also triggers apoptosis in cancer cells that selectively convert glucose to lactate.
Received 25 August 2006; received after revision 20 November 2006; accepted 20 December 2006 相似文献
400.
de Wit PJ 《Cellular and molecular life sciences : CMLS》2007,64(21):2726-2732
Plants have an innate immunity system to defend themselves against pathogens. With the primary immune system, plants recognize
microbe-associated molecular patterns (MAMPs) of potential pathogens through pattern recognition receptors (PRRs) that mediate
a basal defense response. Plant pathogens suppress this basal defense response by means of effectors that enable them to cause
disease. With the secondary immune system, plants have gained the ability to recognize effector-induced perturbations of host
targets through resistance proteins (RPs) that mediate a strong local defense response that stops pathogen growth. Both primary
and secondary immune responses in plants depend on germ line-encoded PRRs and RPs. During induction of local immune responses,
systemic immune responses also become activated, which predispose plants to become more resistant to subsequent pathogen attacks.
This review gives an update on recent findings that have enhanced our understanding of plant innate immunity and the arms
race between plants and their pathogens.
Received 24 June 2007; received after revision 18 July 2007; accepted 15 August 2007 相似文献