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Antimicrobial peptides are highly diverse pathogen-killing molecules. In many taxa, their evolution is characterized by positive
selection and frequent gene duplication. It has been proposed that genes encoding antimicrobial peptides might be subject
to balancing selection and/or an enhanced mutation rate, but these hypotheses have not been well evaluated because allelic
variation has rarely been studied at antimicrobial peptide loci. We present an evolutionary analysis of novel antimicrobial
peptide genes from leopard frogs, Rana. Our results demonstrate that a single genome contains multiple homologous copies, among which there is an excess of nonsynonymous
nucleotide site divergence relative to that expected from synonymous site divergence. Thus, we confirm the trends of recurrent
duplication and positive selection. Allelic variation is quite low relative to interspecies divergence, indicating a recent
positive selective sweep with no evidence of balancing selection. Repeated gene duplication, rather than a balanced maintenance
of divergent allelic variants at individual loci, appears to be how frogs have responded to selection for a diverse suite
of antimicrobial peptides. Our data also support a pattern of enhanced synonymous site substitution in the mature peptide
region of the gene, but we cannot conclude that this is due to an elevated mutation rate. 相似文献
3.
Cathelicidins comprise a family of antimicrobial peptides (AMPs) sharing a highly conserved cathelin domain, and play a central role in the innate defense against infection in most of vertebrates. But so far it has not yet been found in amphibians although a large number of other groups of AMPs have been identified. In the current work, the first amphibian cathelicidin (cathelicidin-AL) has been characterized from the frog skin of Amolops loloensis. Cathelicidin-AL (RRSRRGRGGGRRGGSGGRGGRGGGGRSGAGSSIAGVGSRGGGGGRHYA) is a cationic peptide containing 48 amino acid residues (aa) with 12 basic aa and no acidic aa. The chemical synthesized peptide efficiently killed bacteria and some fungal species including clinically isolated drug-resistance microorganisms. The cDNA encoding cathelicidin-AL precursor was cloned from the skin cDNA library of A. loloensis. As other cathelicidins, the precursor of cathelicidin-AL also contains highly conserved anionic cathelin domain of cysteine proteinase inhibitor followed by the AMP fragment at C-terminus. Phylogenetic analysis revealed that as connecting link, the amphibian cathelicidin predates reptilia but postdates fish cathelicidin. The peptide purification combined with gene cloning results confirms the presence of cathelicidin in amphibians and filled the evolutionary gap of cathelicidin in vertebrate, considering amphibians' special niche as the animals bridging the evolutionary land-water gap. 相似文献
4.
Molecular Characterization of Antimicrobial Peptide Genes of the Carpenter Ant Camponotus floridanus
The production of antimicrobial peptides (AMPs) is a major defense mechanism against pathogen infestation and of particular importance for insects relying exclusively on an innate immune system. Here, we report on the characterization of three AMPs from the carpenter ant Camponotus floridanus. Due to sequence similarities and amino acid composition these peptides can be classified into the cysteine-rich (e.g. defensin) and glycine-rich (e.g. hymenoptaecin) AMP groups, respectively. The gene and cDNA sequences of these AMPs were established and their expression was shown to be induced by microbial challenge. We characterized two different defensin genes. The defensin-2 gene has a single intron, whereas the defensin-1 gene has two introns. The deduced amino acid sequence of the C. floridanus defensins is very similar to other known ant defensins with the exception of a short C-terminal extension of defensin-1. The hymenoptaecin gene has a single intron and a very peculiar domain structure. The corresponding precursor protein consists of a signal- and a pro-sequence followed by a hymenoptaecin-like domain and six directly repeated hymenoptaecin domains. Each of the hymenoptaecin domains is flanked by an EAEP-spacer sequence and a RR-site known to be a proteolytic processing site. Thus, proteolytic processing of the multipeptide precursor may generate several mature AMPs leading to an amplification of the immune response. Bioinformatical analyses revealed the presence of hymenoptaecin genes with similar multipeptide precursor structure in genomes of other ant species suggesting an evolutionary conserved important role of this gene in ant immunity. 相似文献
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Cationic Antimicrobial Peptides in Penaeid Shrimp 总被引:1,自引:0,他引:1
Tassanakajon A Amparyup P Somboonwiwat K Supungul P 《Marine biotechnology (New York, N.Y.)》2011,13(4):639-657
Penaeid shrimp aquaculture has been consistently affected worldwide by devastating diseases that cause a severe loss in production.
To fight a variety of harmful microbes in the surrounding environment, particularly at high densities (of which intensive
farming represents an extreme example), shrimps have evolved and use a diverse array of antimicrobial peptides (AMPs) as part
of an important first-line response of the host defense system. Cationic AMPs in penaeid shrimps composed of penaeidins, crustins,
and anti-lipopolysaccharide factors are comprised of multiple classes or isoforms and possess antibacterial and antifungal
activities against different strains of bacteria and fungi. Shrimp AMPs are primarily expressed in circulating hemocytes,
which is the main site of the immune response, and hemocytes expressing AMPs probably migrate to infection sites to fight
against pathogen invasion. Indeed, most AMPs are produced as early as the nauplii developmental stage to protect shrimp larvae
from infections. In this review, we discuss the sequence diversity, expression, gene structure, and antimicrobial activities
of cationic AMPs in penaeid shrimps. The information available on antimicrobial activities indicates that these shrimp AMPs
have potential therapeutic applications in the control of disease problems in aquaculture. 相似文献
7.
Lung FD Wang KS Liao ZJ Hsu SK Song FY Liou CC Wu YS 《Bioorganic & medicinal chemistry letters》2012,22(12):4185-4188
Antimicrobial peptides (AMPs) represent the first defense line against infection when organisms are infected by pathogens. These peptides are generally good targets for the development of antimicrobial agents. Peptide amide analogs of Ixosin-B, an antimicrobial peptide with amino acid sequence of QLKVDLWGTRSGIQPEQHSSGKSDVRRWRSRY, were designed, synthesized and examined for antimicrobial activities against Escherichia coli, Staphylococcus aureus, and Pseudomonas aeruginosa. Within the peptides synthesized, we discovered an 11-mer peptide, KRLRRVWRRWR-amide, which exhibited potent antimicrobial activity while very little hemolytic activity in human erythrocytes was observed even at high dose level (100 μM). With further modifications, this peptide could be developed into a potent antimicrobial agent in the future. 相似文献
8.
Tilak Nayak Santi M. Mandal Kartik Neog Ananta K. Ghosh 《International journal of peptide research and therapeutics》2018,24(2):337-346
Antimicrobial peptides (AMPs) are produced in all living organisms including insects in a non-specific manner, and act as innate immune defense arsenal against the invading pathogens. Muga silkworm (Antheraea assamensis) larvae were injected with Candida albicans and AMPs were isolated from the hemolymph after extracting with methanol, acetic acid and water mixture (90:1:9) and evaluated for antimicrobial activity against fungal and bacterial pathogens. Further purification was done through successive semipreparative and analytical reversed phase HPLC using C-18 column. The obtained fractions were collected, lyophilized and tested for antimicrobial activity. Among the HPLC fractions, one showed highest activity with MIC value of 64 µg/ml against Gram-negative bacteria, Escherichia coli and Enterobacter cloacae. Purity of this isolated peptide was confirmed by SDS-PAGE and TLC, and its molecular mass was determined as 9.052 kDa by MALDI-TOF mass spectrometry. From the mass fingerprinting analysis of this peptide after trypsin digestion a peptide fragment with molecular mass of 2622.7 Da was obtained. De novo sequencing of this peptide fragment following MS/MS analysis identified few amino acid residues as “KSGGGGWGS” with a total score of 46.9 with gloverin peptide of A. mylitta. The peptide inhibited biofilm formation of the Gram-negative bacterial pathogens. SEM study revealed that peptide disrupted bacterial cell wall to leach out intracellular materials and may be the major target for its antimicrobial activity. 相似文献
9.
Anchalee Tassanakajon Piti Amparyup Kunlaya Somboonwiwat Premruethai Supungul 《Marine biotechnology (New York, N.Y.)》2010,12(5):487-505
Penaeid shrimp aquaculture has been consistently affected worldwide by devastating diseases that cause a severe loss in production.
To fight a variety of harmful microbes in the surrounding environment, particularly at high densities (of which intensive
farming represents an extreme example), shrimps have evolved and use a diverse array of antimicrobial peptides (AMPs) as part
of an important first-line response of the host defense system. Cationic AMPs in penaeid shrimps composed of penaeidins, crustins,
and anti-lipopolysaccharide factors are comprised of multiple classes or isoforms and possess antibacterial and antifungal
activities against different strains of bacteria and fungi. Shrimp AMPs are primarily expressed in circulating hemocytes,
which is the main site of the immune response, and hemocytes expressing AMPs probably migrate to infection sites to fight
against pathogen invasion. Indeed, most AMPs are produced as early as the nauplii developmental stage to protect shrimp larvae
from infections. In this review, we discuss the sequence diversity, expression, gene structure, and antimicrobial activities
of cationic AMPs in penaeid shrimps. The information available on antimicrobial activities indicates that these shrimp AMPs
have potential therapeutic applications in the control of disease problems in aquaculture. 相似文献
10.
抗菌肽(antimicrobial peptides, AMPs)是生物先天免疫系统的重要组成部分,可帮助宿主有效应对病原细菌、真菌和病毒等微生物的胁迫,被认为是医疗、食品加工和农业领域最具前途和潜力的抗生素替代物。病原微生物在与抗菌肽的互作中进化出了多种有针对性的抗性机制,本文从病原微生物对AMPs的感应与基因调控、细胞壁/膜成份的修饰、分泌蛋白酶降解及利用外排泵排出等四个方面综述了国内外的研究进展,并对AMPs类制品的研究前景进行了讨论与展望。 相似文献
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Amphibians are characterized in part by their highly specialized and glandular skin that enables key physiological functions such as cutaneous respiration and defense against a variety of micro- and macroscopic predators via toxic components (e.g., alkaloids and bufodienolids), biogenic amines, neuropeptides and antimicrobial peptides (AMPs). To date, DNA sequence information regarding AMP genes in anurans is restricted to only a few anuran families and largely to “higher frogs” (Neobatrachia). Here, we analyze the DNA information for the signal sequences of the AMP precursors in anuran amphibians available to the end of 2009 in an explicit phylogenetic framework to characterize the evolution of this large, diverse gene family. Comparison of cDNA sequences suggests that there are at least three different motifs within the signal peptide sequence of the AMP-precursor corresponding to the evolutionary lineages Neobatrachia, Bombinatoridae (Bombina spp.) and Pipidae (Xenopus laevis). The signal sequences are strongly conserved within each lineage (as previously noted for Neobatrachia), but highly divergent between them. Together with the lack of a linear relationship between the degree of sequence divergence and evolutionary time, we hypothesize that the anuran AMP system has evolved convergently on at least three occasions. However, additional sampling, especially among the largely poorly sampled non-neobatrachian lineages, is required to confirm this hypothesis and could reveal the existence of additional signal sequence motifs. 相似文献
13.
A requisite for efficacious host defense against pathogens and predators has prioritized evolution of effector molecules thereof. A recent multidimensional analysis of physicochemical properties revealed a novel, unifying structural signature among virtually all classes of cysteine-containing antimicrobial peptides. This motif, termed the gamma-core, is seen in host defense peptides from organisms spanning more than 2.6 billion years of evolution. Interestingly, many toxins possess the gamma-core signature, consistent with discoveries of their direct antimicrobial activity. Many microbicidal chemokines (kinocidins) likewise contain iterations of the gamma-core motif, reconciling their antimicrobial efficacy. Importantly, these polypeptide classes have evolved to target and modulate biomembranes in protecting respective hosts against unfavorable interactions with potential pathogens or predators. Extending on this concept, the current report addresses the hypothesis that antimicrobial peptides, kinocidins, and polypeptide toxins are structurally congruent and share a remarkably close phylogenetic relationship, paralleling their roles in host-pathogen relationships. Analyses of their mature amino acid sequences demonstrated that cysteine-stabilized antimicrobial peptides, kinocidins, and toxins share ancient evolutionary relatedness stemming from early precursors of the gamma-core signature. Moreover, comparative 3-D structure analysis revealed recurring iterations of antimicrobial peptide gamma-core motifs within kinocidins and toxins. However, despite such congruence in gamma-core motifs, the kinocidins diverged in overall homology from microbicidal peptides or toxins. These findings are consistent with observations that chemokines are not toxic to mammalian cells, in contrast to many antimicrobial peptides and toxins. Thus, specific functions of these molecular effectors may be governed by specific configurations of structural modules associated with a common gamma-core motif. These concepts are consistent with the hypothesis that the gamma-core is an archetype determinant in polypeptides that target or regulate with biological membranes, with specific iterations optimized to unique or cognate host defense contexts. Quantitative and qualitative data suggest these protein families emerged through both parallel and divergent processes of modular evolution. Taken together, the current and prior findings imply that the gamma-core motif contributes to conserved structures and functions of host defense polypeptides. The presence of this unifying molecular signature in otherwise diverse categories of membrane-active host defense peptides implies an ancient and essential role for such a motif in effector molecules governing host-pathogen relationships. 相似文献
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15.
Manners JM 《Genome biology》2007,8(9):225
Recent bioinformatic analyses of sequenced plant genomes reveal a previously unrecognized abundance of genes encoding antimicrobial
cysteine-rich peptides, representing a formidable and dynamic defense arsenal against plant pests and pathogens. 相似文献
16.
《Critical reviews in biotechnology》2013,33(2):143-171
Life-threatening infectious diseases are on their way to cause a worldwide crisis, as treating them effectively is becoming increasingly difficult due to the emergence of antibiotic resistant strains. Antimicrobial peptides (AMPs) form an ancient type of innate immunity found universally in all living organisms, providing a principal first-line of defense against the invading pathogens. The unique diverse function and architecture of AMPs has attracted considerable attention by scientists, both in terms of understanding the basic biology of the innate immune system, and as a tool in the design of molecular templates for new anti-infective drugs. AMPs are gene-encoded short (<100 amino acids), amphipathic molecules with hydrophobic and cationic amino acids arranged spatially, which exhibit broad spectrum antimicrobial activity. AMPs have been the subject of natural evolution, as have the microbes, for hundreds of millions of years. Despite this long history of co-evolution, AMPs have not lost their ability to kill or inhibit the microbes totally, nor have the microbes learnt to avoid the lethal punch of AMPs. AMPs therefore have potential to provide an important breakthrough and form the basis for a new class of antibiotics. In this review, we would like to give an overview of cationic antimicrobial peptides, origin, structure, functions, and mode of action of AMPs, which are highly expressed and found in humans, as well as a brief discussion about widely abundant, well characterized AMPs in mammals, in addition to pharmaceutical aspects and the additional functions of AMPs. 相似文献
17.
Life-threatening infectious diseases are on their way to cause a worldwide crisis, as treating them effectively is becoming increasingly difficult due to the emergence of antibiotic resistant strains. Antimicrobial peptides (AMPs) form an ancient type of innate immunity found universally in all living organisms, providing a principal first-line of defense against the invading pathogens. The unique diverse function and architecture of AMPs has attracted considerable attention by scientists, both in terms of understanding the basic biology of the innate immune system, and as a tool in the design of molecular templates for new anti-infective drugs. AMPs are gene-encoded short (<100 amino acids), amphipathic molecules with hydrophobic and cationic amino acids arranged spatially, which exhibit broad spectrum antimicrobial activity. AMPs have been the subject of natural evolution, as have the microbes, for hundreds of millions of years. Despite this long history of co-evolution, AMPs have not lost their ability to kill or inhibit the microbes totally, nor have the microbes learnt to avoid the lethal punch of AMPs. AMPs therefore have potential to provide an important breakthrough and form the basis for a new class of antibiotics. In this review, we would like to give an overview of cationic antimicrobial peptides, origin, structure, functions, and mode of action of AMPs, which are highly expressed and found in humans, as well as a brief discussion about widely abundant, well characterized AMPs in mammals, in addition to pharmaceutical aspects and the additional functions of AMPs. 相似文献
18.
Nannette Y. Yount 《生物化学与生物物理学报:生物膜》2006,1758(9):1373-1386
A requisite for efficacious host defense against pathogens and predators has prioritized evolution of effector molecules thereof. A recent multidimensional analysis of physicochemical properties revealed a novel, unifying structural signature among virtually all classes of cysteine-containing antimicrobial peptides. This motif, termed the γ-core, is seen in host defense peptides from organisms spanning more than 2.6 billion years of evolution. Interestingly, many toxins possess the γ-core signature, consistent with discoveries of their direct antimicrobial activity. Many microbicidal chemokines (kinocidins) likewise contain iterations of the γ-core motif, reconciling their antimicrobial efficacy. Importantly, these polypeptide classes have evolved to target and modulate biomembranes in protecting respective hosts against unfavorable interactions with potential pathogens or predators. Extending on this concept, the current report addresses the hypothesis that antimicrobial peptides, kinocidins, and polypeptide toxins are structurally congruent and share a remarkably close phylogenetic relationship, paralleling their roles in host-pathogen relationships. Analyses of their mature amino acid sequences demonstrated that cysteine-stabilized antimicrobial peptides, kinocidins, and toxins share ancient evolutionary relatedness stemming from early precursors of the γ-core signature. Moreover, comparative 3-D structure analysis revealed recurring iterations of antimicrobial peptide γ-core motifs within kinocidins and toxins. However, despite such congruence in γ-core motifs, the kinocidins diverged in overall homology from microbicidal peptides or toxins. These findings are consistent with observations that chemokines are not toxic to mammalian cells, in contrast to many antimicrobial peptides and toxins. Thus, specific functions of these molecular effectors may be governed by specific configurations of structural modules associated with a common γ-core motif. These concepts are consistent with the hypothesis that the γ-core is an archetype determinant in polypeptides that target or regulate with biological membranes, with specific iterations optimized to unique or cognate host defense contexts. Quantitative and qualitative data suggest these protein families emerged through both parallel and divergent processes of modular evolution. Taken together, the current and prior findings imply that the γ-core motif contributes to conserved structures and functions of host defense polypeptides. The presence of this unifying molecular signature in otherwise diverse categories of membrane-active host defense peptides implies an ancient and essential role for such a motif in effector molecules governing host-pathogen relationships. 相似文献
19.
Antimicrobial peptides (AMPs) include a diverse group of gene-encoded molecules that play a role in innate defense in many organisms. Evolutionary analyses of the AMP genes can be challenging because of gene duplication and diversification. Recently discovered, hepcidins are small, cysteine-rich antimicrobial peptides that also function as hormonal regulators of iron homeostasis. In this paper we investigated the organization, expression and molecular evolution of hepcidin. From searches of the literature and public genomic databases we collected 68 different hepcidin gene products from 51 different species, all among the vertebrates. Although some species have multiple hepcidin homologues, we suggest that each contains only one copy that functions as an iron regulator. Despite the recent report of hepcidin sequences in the pigeon (Fu, Y.M., Li, S.P., Wu, Y.F., Chang, Y.Z., 2007. Identification and expression analysis of hepcidin-like cDNAs from pigeon (Columba livia). Mol. Cell. Biochem. 305, 191-197.), searches of the chicken genomic, EST, and HTGS databases did not reveal any evidence of the presence of this gene in birds. This, along with the absence of reported avian transferrin receptor 2 and hemojuvelin sequences, suggests that iron homeostasis in birds may be regulated by an alternative mechanism. 相似文献
20.
Extremely abundant antimicrobial peptides existed in the skins of nine kinds of Chinese odorous frogs 总被引:1,自引:0,他引:1
Peptide agents are regarded as hopeful candidates to solve life-threatening resistance of pathogenic microorganisms to classic antibiotics due to their unique action mechanisms. Peptidomic and genomic investigation of natural antimicrobial peptides (AMPs) from amphibian skin secretions can provide a large amount of structure-functional information to design peptide antibiotics with therapeutic potential. In the present study, we identified a large number of AMPs from the skins of nine kinds of Chinese odorous frogs. Eighty AMPs were purified from three different odorous frogs and confirmed by peptidomic analysis. Our results indicated that post-translational modification of AMPs rarely happened in odorous frogs. cDNAs encoding precursors of 728 AMPs, including all the precursors of the confirmed 80 native peptides, were cloned from the constructed AMP cDNA libraries of nine Chinese odorous frogs. On the basis of the sequence similarity of deduced mature peptides, these 728 AMPs were grouped into 97 different families in which 71 novel families were identified. Out of these 728 AMPs, 662 AMPs were novel and 28 AMPs were reported previously in other frog species. Our results revealed that identical AMPs were widely distributed in odorous frogs; 49 presently identified AMPs could find their identical molecules in different amphibian species. Purified peptides showed strong antimicrobial activities against 4 tested microbe strains. Twenty-three deduced peptides were synthesized and their bioactivities, including antimicrobial, antioxidant, hemolytic, immunomodulatory and insulin-releasing activities, were evaluated. Our findings demonstrate the extreme diversity of AMPs in amphibian skins and provide plenty of templates to develop novel peptide antibiotics. 相似文献