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1.
L. P. Bignold 《Cellular and molecular life sciences : CMLS》1995,51(4):317-327
Eosinophil leukocytes have been studied for over 100 years, with various theories being advanced of the mechanism of their recruitment and function, especially in relation to the lesions of allergy, asthma and parasitism. Early notions of recruitment and function depended on observations of the cells in inflammatory lesions, while later theories have used additional information from in vitro studies. Many issues are still unresolved. This review aims to cover the older and more recent literature of the mechanisms of accumulation of eosinophil leukocytes and their functions, with a view to illuminating the controversies and difficulties of research in the area. 相似文献
2.
Biochemistry of frog ribonucleases 总被引:10,自引:0,他引:10
Frogs have unique pyrimidine base-specific RNases, with structures similar to those of turtle, iguana and chicken RNases. Among the four frog RNases discussed here, three from Rana pipiens, R. catesbeiana and R. japonica oocyte cells show anti-tumour activity, and the latter two show lectin activity towards sialic acid-rich glycoproteins. In this review, (i) we compare their unique primary structures with respect to the locations of their disulphide bridges, three-dimensional structure, base specificity and heat stability as compared with RNase A, and (ii) we summarize current knowledge about the mode of action of lectin and the antitumour activities of the three frog RNases. 相似文献
3.
Cationic host defence peptides: Innate immune regulatory peptides as a novel approach for treating infections 总被引:9,自引:0,他引:9
An increase in antibiotic resistance and the emergence of new pathogens has led to an urgent need for alternative approaches
to infection management. Immunomodulatory molecules that do not target the pathogen directly, but rather selectively enhance
and/or alter host defence mechanisms, are attractive candidates for therapeutic development. Natural cationic host defence
peptides represent lead molecules that boost innate immune responses and selectively modulate pathogen-induced inflammatory
responses. This review discusses recent evidence exploring the mechanisms of cationic host defence peptides as innate immune
regulators, their role in the interface of innate and adaptive immunity, and their potential application as beneficial therapeutics
in overcoming infectious diseases.
Received 3 November 2006; received after revision 14 December 2006; accepted 22 January 2007 相似文献
4.
Scavenger receptor family proteins: roles for atherosclerosis, host defence and disorders of the central nervous system 总被引:11,自引:1,他引:10
Y. Yamada T. Doi T. Hamakubo T. Kodama 《Cellular and molecular life sciences : CMLS》1998,54(7):628-640
In this review, we summarize the structure and function of the scavenger receptor family of proteins including class A (type I and II macrophage scavenger receptors, MARCO), class B (CD36, scavenger receptor class BI), mucinlike (CD68/macrosialin, dSR-CI) and endothelial (LOX-1) receptors. Two motifs have been identified as ligand-binding domains a charged collagen structure of type I and II receptors, and an immunodominant domain of CD36. These structures can recognize a wide range of negatively charged macromolecules, including oxidized low-density lipoproteins, damaged or apoptotic cells, and pathogenic microorganisms. After binding, these ligands can be either internalized by endocytosis or phagocytosis, or remain at the cell surface and mediate adhesion or lipid transfer through caveolae. Under physiological conditions, scavenger receptors serve to scavenge or clean up cellular debris and other related materials, and they play a role in host defence. In pathological states, they mediate the recruitment, activation and transformation of macrophages and other cells which may be related to the development of atherosclerosis and to disorders caused by the accumulation of denatured materials, such as Alzheimer's disease. Received 17 September 1997; received after revision 16 March 1998; accepted 17 March 1998 相似文献
5.
The angiogenins 总被引:8,自引:0,他引:8
D. J. Strydom 《Cellular and molecular life sciences : CMLS》1998,54(8):811-824
The angiogenic and other biological functions of the angiogenins, members of the pancreatic RNase superfamily of proteins, are reviewed in the context of their primary and tertiary structures. The ribonucleolytic activity and interactions with the placental ribonuclease inhibitor have seen much study in the last few years. The mechanism of the angiogenic activity of angiogenin has recently been postulated as involving multiple interactions with other proteins through specific regions on the molecular surface of angiogenin. These molecular partners include heparin, plasminogen, elastase, angiostatin, actin and most importantly a 170-kilodalton receptor on subconfluent endothelial cells. The existence of the latter receptor was established in conjunction with a mitogenic activity of angiogenin on subconfluent cells. The levels of angiogenin in various physiological and disease states are summarized, including various studies on pregnancy and angiogenin. Correlations are seen between states of enhanced angiogenesis and angiogenin levels. An overview of the relationship of angiogenin and the other RNases of the superfamily showed that their genes all are in relative close proximity on human chromosome 14. Examination of the many expressed sequence tags published in the public databanks, for angiogenin and the other RNases, revealed that angiogenin and RNase-4 (the most evolutionarily conserved RNase), share various identical 5′-untranslated regions on their sets of messenger RNAs, suggesting that their genes are in very close proximity on chromosome 14 and that they are products of differential splicing. This in turn suggests that, in both humans and mice, expression of these two proteins is under identical control, with obvious implications for their biological activities. The evolutionary history of the angiogenins is examined briefly on the basis of the protein sequences of the human, rabbit, pig, two bovine and four mouse angiogenins, and two mouse angiogenin pseudogene sequences. The discrepancy between the conventional requirement for conservatism in structure to allow multimolecule interactions, and the actual fast-changing sequence of the angiogenins, in concert with the wide-ranging activity even in birds, of human angiogenin, is discussed. 相似文献
6.
A. Beschin M. Bilej E. Torreele P. De Baetselier 《Cellular and molecular life sciences : CMLS》2001,58(5-6):801-814
Based on the assumption that invertebrates, like vertebrates, possess factors regulating responses to infection or wounding,
studies dealing with the evolution of immunity have focussed on the isolation and characterisation of putative cytokine-related
molecules from invertebrates. Until recently, most of our knowledge of cytokine- and cytokine receptor-like molecules in invertebrates
relies on functional assays and similarities at the physicochemical level. As such, a phylogenetic relationship between invertebrate
cytokine-like molecules and vertebrate counterparts could not be convincingly demonstrated. Recent genomic sequence analyses
of interleukin-1-receptor-related molecules, that is Toll-like receptors, and members of the transforming growth factor-β superfamily suggest that the innate immune system of invertebrates and vertebrates evolved independently. In addition, data
from protochordates and annelids suggest that invertebrate cytokine-like molecules and vertebrate factors do not have the
same evolutionary origin. We propose instead that the convergence of function of invertebrate cytokine-like molecules and
vertebrate counterparts involved in innate immune defences may be based on similar lectin-like activities.
Received 27 November 2000; received after revision 11 December 2000; accepted 13 December 2000 相似文献
7.
J. Hofsteenge A. Vicentini O. Zelenko 《Cellular and molecular life sciences : CMLS》1998,54(8):804-810
The structural and enzymatic properties of RNase 4 are reviewed. This RNase shows a much higher interspecies similarity (approximately 90%) than the other members of the RNase A superfamily. The enzyme is ubiquitous, with the highest amounts present in liver and lung. Its unique uridine specificity results from alterations in and around the pyrimidine-binding site. In particular, the shortened C-terminus and the side chains of Phe-42, Asp-80 and Arg-101 appear to be involved. RNase 4 binds tightly to the intracellular RNase inhibitor, with a K d of 4 × 10−15 M. 相似文献
8.
Nurminsky DI 《Cellular and molecular life sciences : CMLS》2001,58(1):125-134
Analysis of DNA variation is a powerful tool for detecting adaptation at the genomic level. The contribution of adaptive
evolution is evident from examples of rapidly evolving genes, which represent the likely targets for strong selection. More
subtle adaptation is also an integral component of routine maintenance of gene performance, continuously applied to every
gene. Adaptive changes in the population are accomplished through selective sweeps, i.e. complete or partial fixation of beneficial
alleles. The evidence is accumulating that selective sweeps are quite frequent events which, together with associated genetic
hitchhiking, represent dominant forces that influence molecular evolution by shaping the variability pattern in the genome.
Received 5 May 2000; revised 22 August 2000; accepted 24 August 2000 相似文献
9.
Much effort has been devoted recently to expanding the amino acid repertoire in protein biosynthesis in vivo. From such experimental
work it has emerged that some of the non-canonical amino acids are accepted by the cellular translational machinery while
others are not, i.e. we have learned that some determinants must exist and that they can even be anticipated. Here, we propose
a conceptual framework by which it should be possible to assess deeper levels of the structure of the genetic code, and based
on this experiment to understand its evolution and establishment. First, we propose a standardised repertoire of 20 amino
acids as a basic set of conserved building blocks in protein biosynthesis in living cells to be the main criteria for genetic
code structure and evolutionary considerations. Second, based on such argumentation, we postulate the structure and evolution
of the genetic code in the form of three general statements: (i) the nature of the genetic code is deterministic; (ii) the
genetic code is conserved and universal; (iii) the genetic code is the oldest known level of complexity in the evolution of
living organisms that is accessible to our direct observation and experimental manipulations. Such statements are discussed
as our working hypotheses that are experimentally tested by recent findings in the field of expanded amino acid repertoire
in vivo.
Received 30 June 1999; accepted 9 July 1999 相似文献
10.
M. J. Wells 《Cellular and molecular life sciences : CMLS》1992,48(9):800-808
Cephalopods typically have high metabolic rates. They have blood in which the oxygen carrier is haemocyanin, a pigment that is found only in solution and which never seems to be present in concentrations that will transport more than 4–5 vols % of oxygen. Their hearts must in consequence have very high cardiac outputs. In this account the performance of the heart ofNautilus, the only surviving ectocochleate, is contrasted with the performance of the hearts of coleoids,Octopus which has a relatively low metabolic rate (for a coleoid) and squids which have very high oxygen uptakes by any standards. In all these animals, heartbeat frequency is temperature-dependent and the additional oxygen demand in exercise is met very largely by a 2–3-fold increase in stroke volume. With the exception ofNautilus, cephalopods tend to utilise nearly all of the oxygen transported in the blood even at rest; they show very limited factorial scopes. Specific power output has, however, increased dramatically from 2.7 mWg–1 in an activeNautilus to 5.5 mWg–1 inOctopus and up to 20 or 30 mWg–1 in species ofLoligo. The increase is almost entirely due to a 10-fold increase in heartbeat frequency. It is argued that frequency cannot be used as a means of responding to extra demand in an animal that must also carry automatic compensation for changes in metabolic rate dependent upon the ambient temperature, and that the use of frequency in some squid may be associated with a reduced temperature tolerance. Cephalopod systemic hearts do not scale directly with body mass, like the hearts of fish and the higher vertebrates. Smaller cephalopods have relatively larger hearts (as Mass0.9). A typical 100-g coleoid would have a heart mass of 0.15 g. Oegopsid squids appear to be exceptional with hearts twice as large. 相似文献
11.
G. M. Rossolini S. Schippa M. L. Riccio F. Berlutti L. E. Macaskie M. C. Thaller 《Cellular and molecular life sciences : CMLS》1998,54(8):833-850
Bacterial nonspecific acid phosphohydrolases (NSAPs) are secreted enzymes, produced as soluble periplasmic proteins or as membrane-bound lipoproteins, that are usually able to dephosphorylate a broad array of structurally unrelated substrates and exhibit optimal catalytic activity at acidic to neutral pH values. Bacterial NSAPs are monomeric or oligomeric proteins containing polypeptide components with an M r of 25 – 30 kDa. On the basis of amino acid sequence relatedness, three different molecular families of NSAPs can be distinguished, indicated as molecular class A, B and C, respectively. Members of each class share some common biophysical and functional features, but may also exhibit functional differences. NSAPs have been detected in several microbial taxa, and enzymes of different classes can be produced by the same bacterial species. Structural and phyletic relationships exist among the various bacterial NSAPs and some other bacterial and eucaryotic phosphohydrolases. Current knowledge on bacterial NSAPs is reviewed, together with analytical tools that may be useful for their characterization. An overview is also presented concerning the use of bacterial NSAPs in biotechnology. Received 21 November 1997; received after revision 10 March 1998; accepted 10 March 1998 相似文献
12.
T. Winckler 《Cellular and molecular life sciences : CMLS》1998,54(5):383-393
Repetitive DNA is a major component of any living cell. In eukaryotes retrotransposable elements make up several percent of the genome size, and consequently, retroelements are often identified in experiments aimed at establishing physical maps and whole genome sequences. In this review, recent progress in the characterization of retrotransposable elements in the genome of the eukaryotic mi croorganism Dictyostelium discoideum is summarized with a focus on retroelements which integrate near transfer RNA genes with intriguing position specificity. Received 21 November 1997; received after revision 6 January 1998; accepted 6 January 1998 相似文献
13.
D.M. Hunt S.E. Wilkie J.K. Bowmaker S. Poopalasundaram 《Cellular and molecular life sciences : CMLS》2001,58(11):1583-1598
Sensitivity to ultraviolet light (UV) is achieved by photoreceptors in the eye that contain a class of visual pigments maximally sensitive to light at wavelengths <400 nm. It is widespread in the animal kingdom where it is used for mate choice, communication and foraging for food. UV sensitivity is not, however, a constant feature of the visual system, and in many vertebrate species, the UV-sensitive (UVS) pigment is replaced by a violet-sensitive (VS) pigment with maximal sensitivity between 410 and 435 nm. The role of protonation of the Schiff base-chromophore linkage and the mechanism for tuning of pigments into the UV is discussed in detail. Amino acid sequence analysis of vertebrate VS/UVS pigments indicates that the ancestral pigment was UVS, with loss of UV sensitivity occurring separately in mammals, amphibia and birds, and subsequently regained by a single amino acid substitution in certain bird species. In contrast, no loss of UV sensitivity has occurred in the UVS pigments of insects. 相似文献
14.
M. Hüttemann V. Frank B. Kadenbach 《Cellular and molecular life sciences : CMLS》1999,55(11):1482-1490
A single cDNA of cytochrome c oxidase subunit VIa was characterised from liver, heart and the thermogenic organ of the partially endotherm tuna fish. The amino acid sequence revealed high identity with subunit VIa from carp and trout, but low identity to subunits VIaL (liver type) and VIaH (heart type) of mammalian cytochrome c oxidase. In reconstituted cytochrome c oxidase from bovine heart, the H +/e− stoichiometry is decreased from 1.0 to 0.5 at high intraliposomal ATP/ADP ratios via exchange of bound ADP by ATP at the matrix domain of the transmembraneous subunit VIaH. Reconstituted cytochrome c oxidase from bovine liver and kidney, containing subunit VIaL, revealed H +/e− ratios below 0.5, independent of the ATP/ADP ratio. The results suggest the evolution of three types of subunit VIa. Subunits VIaH and VIaL are postulated to participate in mammalian thermogenesis. Received 3 May 1999; received after revision 10 June 1999; accepted 29 June 1999 相似文献
15.
Structure, function and evolution of antifreeze proteins 总被引:16,自引:0,他引:16
Antifreeze proteins bind to ice crystals and modify their growth. These proteins show great diversity in structure, and they
have been found in a variety of organisms. The ice-binding mechanisms of antifreeze proteins are not completely understood.
Recent findings on the evolution of antifreeze proteins and on their structures and mechanisms of action have provided new
understanding of these proteins in different contexts. The purpose of this review is to present the developments in contrasting
research areas and unite them in order to gain further insight into the structure and function of the antifreeze proteins.
Received 2 September 1998; received after revision 21 October 1998; accepted 2 November 1998 相似文献
16.
Visual pigment: G-protein-coupled receptor for light signals 总被引:5,自引:0,他引:5
The visual pigment present in photoreceptor cells is a prototypical G-protein-coupled receptor (GPCR) that receives a light signal from the outer environment using a light-absorbing chromophore, 11-cis-retinal. Through cis-trans isomerization of the chromophore, light energy is transduced into chemical free energy, which is in turn utilized for conformational changes in the protein to activate the retinal G-protein. In combination with site-directed mutagenesis, various spectroscopic and biochemical studies identified functional residues responsible for chromophore binding, color regulation, intramolecular signal transduction and G-protein coupling. Extensive studies reveal that these residues are localized into specific domains of visual pigments, suggesting a highly manipulated molecular architecture in visual pigments. In addition to the recent findings on dysfunctional mutations in patients with retinitis pigmentosa or congenital night blindness, the mechanism of intramolecular signal transduction in visual pigments and their evolutionary relationship are discussed. Received 20 July 1998; received after revision 9 September 1998; accepted 23 September 1998 相似文献
17.
Navarro S Aleu J Jiménez M Boix E Cuchillo CM Nogués MV 《Cellular and molecular life sciences : CMLS》2008,65(2):324-337
Human eosinophil cationic protein (ECP)/ ribonuclease 3 (RNase 3) is a protein secreted from the secondary granules of activated
eosinophils. Specific properties of ECP contribute to its cytotoxic activities associated with defense mechanisms. In this
work the ECP cytotoxic activity on eukaryotic cell lines is analyzed. The ECP effects begin with its binding and aggregation
to the cell surface, altering the cell membrane permeability and modifying the cell ionic equilibrium. No internalization
of the protein is observed. These signals induce cell-specific morphological and biochemical changes such as chromatin condensation,
reversion of membrane asymmetry, reactive oxygen species production and activation of caspase-3-like activity and, eventually,
cell death. However, the ribonuclease activity component of ECP is not involved in this process as no RNA degradation is observed.
In summary, the cytotoxic effect of ECP is attained through a mechanism different from that of other cytotoxic RNases and
may be related with the ECP accumulation associated with the inflammatory processes, in which eosinophils are present.
Received 26 October 2007; accepted 23 November 2007 相似文献
18.
Research over the last several years has greatly advanced our understanding of the mechanisms by which the immune system functions. There exist two main branches of immunity, termed innate and adaptive immunity. Innate immunity uses the genetic memory of germline-encoded receptors to recognize the molecular patterns of common pathogens. Adaptive immunity, akin to somatic memory, is a complex system by which the body learns to recognize a pathogens unique antigens and builds an antigen specific response to destroy it. The effective development of the overall immune response depends on careful interplay and regulation between innate and adaptive immunity. Here we review our current understanding of how these integrated systems distinguish targets against which a response is appropriate and neutralize potentially pathogenic challenges.Received 8 May 2003; accepted 2 June 2003 相似文献
19.
The proton-translocating NADH:ubiquinone oxidoreductase or complex I is located in the inner membranes of mitochondria, where
it catalyzes the transfer of electrons from NADH to ubiquinone. Here we report that one of the subunits in complex I is homologous
to short-chain dehydrogenases and reductases, a family of enzymes with diverse activities that include metabolizing steroids,
prostaglandins and nucleotide sugars. We discovered that a subunit of complex I in human, cow, Neurospora crassa and Aquifex aeolius is homologous to nucleotide-sugar epimerases and hydroxysteroid dehydrogenases while seeking distant homologs of these enzymes
with a hidden Markov model-based search of Genpept. This homology allows us to use information from the solved three-dimensional
structures of nucleotide-sugar epimerases and hydroxysteroid dehydrogenases and our motif analysis of these enzymes to predict
functional domains on their homologs in complex I.
Received 26 November 1998; received after revision 12 January 1999; accepted 12 January 1999 相似文献
20.
Bornberg-Bauer E Beaussart F Kummerfeld SK Teichmann SA Weiner J 《Cellular and molecular life sciences : CMLS》2005,62(4):435-445
Proteins are composed of domains, which are conserved evolutionary units that often also correspond to functional units and can frequently be detected with reasonable reliability using computational methods. Most proteins consist of two or more domains, giving rise to a variety of combinations of domains. Another level of complexity arises because proteins themselves can form complexes with small molecules, nucleic acids and other proteins. The networks of both domain combinations and protein interactions can be conceptualised as graphs, and these graphs can be analysed conveniently by computational methods. In this review we summarise facts and hypotheses about the evolution of domains in multi-domain proteins and protein complexes, and the tools and data resources available to study them.Received 20 September 2004; received after revision 23 October 2004; accepted 1 November 2004 相似文献