Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P06889 (
Mol
)
630,302
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The solitary spider wasp Cyphononyx dorsalis is well known to hunt spiders: it uses its stinger to paralyze its prey to feed its larva. This wasp venom was fractionated by bioassay-guided chromatography. Cation-exchange chromatography indicated that the pI value of the active principle was >6.5. 2D-PAGE analysis of the active fraction obtained by gel permeation chromatography showed three major spots of proteins. Two that appeared at pI of >6.5 were analyzed by in-gel digestion and protein sequencing. Three proteins were identified: an
arginine kinase
-like protein that was highly homologous to that of honeybee, an elastase like-protein that was homologous to that of fire ant, and an unknown protein that was not homologous to any protein in the database. Recombinant proteins expressed in E. coli were purified and used for bioassay. The results showed that the
arginine kinase
-like protein exhibited paralytic activity against spiders with the same characteristic symptoms as the crude venom.
Insect Biochem
Mol
Biol 2007 Mar
PMID:Identification of proteins from venom of the paralytic spider wasp, Cyphononyx dorsalis. 1729 2
Here, we report the PCR amplification and cloning of a cDNA for
arginine kinase
(AK) from the beetle Cissites cephalotes (Olivier). The cDNA is 1210bp and has an open reading frame of 1125bp and 5' and 3'-untranslated regions of 30 and 55bp, respectively. The open reading frame encodes a 374 amino acid protein with most of the residues considered necessary for AK function: five residues predicted to interact with the substrate arginine (S77, Y82, E239, C285 and E328), and five residues predicted to interact with the substrate ADP (R138, R140, R243, R294 and R323). A phylogenetic tree of arthropod AKs indicated clearly that insect AKs can be separated into typical AKs from various insect species (group 1) and putative AK sequences deduced from genomic sequences (group 2). Cissites AK clustered in group 2 and provides the first evidence that a group-2 gene is indeed expressed in insects. Moreover, we expressed Cissites AK protein in Escherichia coli as a fusion with maltose-binding protein, and kinetic constants (K(m), K(d), V(max) and k(cat)) were determined for the forward reaction. Comparison of kinetic constants with those of AKs from other sources (insects, mollusks and echinoderms) indicated that insect AKs from Cissites and Periplaneta have two very unique features, the lowest k(cat) (and k(cat)/K(m)(arg)) among AKs, and a lack of synergistic substrate binding (K(d)/K(m) approximately 1).
Insect Biochem
Mol
Biol 2007 Apr
PMID:Arginine kinase from the beetle Cissites cephalotes (Olivier). Molecular cloning, phylogenetic analysis and enzymatic properties. 1736 97
Creatine kinase (CK) is a member of a group of phosphoryl transfer enzymes called phosphagen kinases that play a key role in cellular energy transactions in animals. Three CK isoform gene families are known-cytoplasmic CK (CK), flagellar CK (fCK), and mitochondrial CK (MiCK). Each of the isoforms has a unique gene structure (intron/exon organization). A broad array of other phosphagen kinases is present in animals. Some of these enzymes are found only in annelids and closely related groups including glyocyamine kinase (GK), lombricine kinase (LK), taurocyamine kinase (TK), and a unique
arginine kinase
(AK) restricted to annelids. Phylogenetic analyses of these annelid phosphagen kinases indicate that they appear to have evolved from a CK-like ancestor. To gain a greater understanding of the relationship of the CK isoforms to the annelid enzymes, we have determined the intron/exon organization of the genes for the following phosphagen kinases: Eisenia LK, Sabellastarte AK, and Arenicola mitochondrial TK (MiTK). Analysis of genomic database for the polychaete Capitella sp. yielded two putative LK genes [cytoplasmic LK and mitochondrial LK (MiLK)]. The intron/exon organization of these genes was compared with available data for cytoplasmic and mitochondrial CKs, and an annelid GK. Surprisingly, these annelid genes, irrespective of whether they are cytoplasmic (LK, AK, and GK) or mitochondrial (MiTK and MiLK), had the same 8-intron/9-exon organization and were strikingly similar to MiCK genes sharing seven of eight splice junctions. These results support the view that the MiCK gene is basal and ancestral to the phosphagen kinases unique to annelids.
J
Mol
Evol 2007 Nov
PMID:Evolution of the cytoplasmic and mitochondrial phosphagen kinases unique to annelid groups. 1793 18
A series of mutants were constructed to investigate the amino-acid residues responsible for the synergism in substrate binding of
arginine kinase
(AK). AK contains a pair of highly conserved amino acids (Y75 and P272) that form a hydrogen bond. In the locust (Locusta migratoria manilensis) AK, mutants in two highly conserved sites can cause pronounced loss of activity, conformational changes and distinct substrate synergism alteration. The Y75F and Y75D mutants showed strong synergism (Kd/Km=6.2-13.4), while in single mutants, P272G and P272R, and a double mutant, Y75F/P272G, the synergism was almost completely lost (Kd/Km=1.1-1.4). Another double mutant, Y75D/P272R, had characteristics similar to those of the wild-type enzyme. All these results suggest that the amino-acid residues 75 and 272 play an important role in regulating the synergism in substrate binding of AK. Fluorescence spectra showed that all mutants except Y75D/P272R displayed a red shift to different degrees. All the results provided direct evidence that there is a subtle relationship between the synergism in substrate binding and the conformational change.
Insect Biochem
Mol
Biol 2008 Jan
PMID:Evidence that amino-acid residues are responsible for substrate synergism of locust arginine kinase. 1807 Jun 65
The microgastroid complex of braconid wasps is a widely recognized and biologically coherent lineage of endoparasitoids of lepidopteran larvae (caterpillars). The complex has received significant phylogenetic attention in recent years due in part to the taxons' association with mutualistic polydnaviruses, with which they compromise host immune systems. A number of previous attempts using a variety of morphological and molecular approaches have not unequivocally resolved relationships amongst the main subfamilies. This work represents a more extensive attempt to resolve the microgastroid relationships, using seven genes (16S rRNA, cytochrome oxidase I (CO1), 28S rRNA,
arginine kinase
(ArgK), long wavelength rhodopsin (Ops), elongation factor 1 alpha (EF1a) and wingless (Wg)) and a greater taxonomic representation. Bayesian, likelihood and parsimony phylogenetic reconstructions of this improved data set has determined that the chelonines diverged first from the remainder of the microgastroids, however the relationships amongst the other subfamilies are still unclear, suggesting a greater nucleotide sample is required to resolve them. Examination of the contribution of individual gene trees to the phylogeny demonstrates why the relationships between subfamilies are still unclear, with not all groups monophyletic for all trees. Filtered supernetworks demonstrate that monophyly of all subfamilies is only recovered when splits found in only one or two genes are excluded, but this also results in little remaining structure left in the deep nodes to resolve inter-subfamily relationships. By increasing the breadth of the study we were also able to re-evaluate previous attempts at dating the lineage and, therefore the origin of the polydnavirus association. Previous attempts used a much reduced data set and fewer fossil calibrations. Thorough literature searches have revealed a substantial increase in the fossil calibrations and these, combined with more sophisticated molecular dating analysis, have substantially increased the age of the microgastroid lineage from previous estimates of approximately 73MYA to approximately 100MYA. Examination of the resultant linearized clock tree also allows an insight into the evolution of the more species rich subfamilies. The chelonines appear to have had a steady rate of evolution, whilst the microgastrines and cardiochilines appear to have undergone a more significant "burst" of evolution. It is hypothesized that the different parasitism strategies of subfamilies (Chelonines are egg parasitoids and the remainder are larval parasitioids) may have influenced the evolutionary rates of the groups.
Mol
Phylogenet Evol 2008 Apr
PMID:Phylogeny of the parasitic microgastroid subfamilies (Hymenoptera: Braconidae) based on sequence data from seven genes, with an improved time estimate of the origin of the lineage. 1832 92
The molecular phylogenetics of decapod crustaceans has been based on sequence data from a limited number of genes. These have included rapidly evolving mitochondrial genes, which are most appropriate for studies of closely related species, and slowly evolving nuclear ribosomal RNA genes, which have been most useful for resolution of deep branches within the Decapoda. Here we examine the utility of the nuclear gene that encodes
arginine kinase
for phylogenetic reconstruction at intermediate levels (relationships among genera and families) within the decapod infraorder Brachyura (the true crabs). Analyses based on
arginine kinase
sequences were compared and combined with those for the mitochondrial cytochrome oxidase I gene. All of the genera in our taxon sample were resolved with high support with
arginine kinase
data alone. However, some of these genera were grouped into clades that are in conflict with recognized brachyuran families. A phylogeny based on cytochrome oxidase I was consistent with the
arginine kinase
phylogeny, but with weaker support. A recently proposed measure of phylogenetic informativeness indicated that
arginine kinase
was generally more informative than cytochrome oxidase I for relationships above the level of genus. Combined analysis of data from both genes provided strong support for clades that are in conflict with current assignments of genera to the families Epialtidae, Mithracidae, Pisidae, and Portunidae.
Mol
Phylogenet Evol 2008 Aug
PMID:Utility of arginine kinase for resolution of phylogenetic relationships among Brachyuran genera and families. 1857 39
The cDNA and deduced amino acid sequences for
arginine kinase
(AK) from the deep-sea clam Calyptogena kaikoi have been determined revealing an unusual two-domain (2D) structure with molecular mass of 80 kDa, twice that of normal AK. The amino acid sequences of both domains contain most of the residues thought to be required for substrate binding found in the horseshoe crab Limulus polyphemus AK, a well studied system for which several X-ray crystal structures exist. However, two highly conserved residues, D62 and R193, that form a salt bridge thereby stabilizing the substrate-bound structure have been replaced by G and N in domain 1, and G and P in domain 2, respectively. The present effort probes whether both domains of Calyptogena AK are catalytically competent. Recombinant constructs of the wild-type enzyme of both single domains, and of selected mutants of the Calyptogena AK have been expressed as fusion proteins with the maltose-binding protein. The wild-type two-domain enzyme (2D[WT]) had high AK activity (k(cat)=23 s(- 1), average value of the two domains), and the single domain 2 (D2[WT]) showed 1.5-times higher activity (k(cat)=38 s(- 1)) than the wild-type 2D[WT]. Interestingly, the single domain 1 (D1[WT]) showed only a very low activity (k(cat) approximately 0.016 s(- 1)). Introduction of a Y68A mutation in both domains virtually abolished catalytic activity. On the other hand, significant residual activity was observed (k(cat)=2.8 s(- 1)), when the Y68A mutation was introduced only into domain 2 of the two-domain enzyme. A similar mutation in domain 1 of the two-domain enzyme reduced activity to a much lower extent (k(cat)=11.1 s(- 1)). Although the domains of this "contiguous" dimeric AK each have catalytic capabilities, the presence of domain 2 strongly influences the stability and activity of domain 1.
Comp Biochem Physiol B Biochem
Mol
Biol 2008 Oct
PMID:Two-domain arginine kinase from the deep-sea clam Calyptogena kaikoi--evidence of two active domains. 1863 45
Although nuclear protein-coding genes have proven broadly useful for phylogenetic inference, relatively few such genes are regularly employed in studies of Coleoptera, the most diverse insect order. We increase the number of loci available for beetle systematics by developing protocols for three genes previously unused in beetles (alpha-spectrin, RNA polymerase II and topoisomerase I) and by refining protocols for five genes already in use (
arginine kinase
, CAD, enolase, PEPCK and wingless). We evaluate the phylogenetic performance of each gene in a Bayesian framework against a presumably known test phylogeny. The test phylogeny covers 31 beetle specimens and two outgroup taxa of varying age, including three of the four extant beetle suborders and a denser sampling in Adephaga and in the carabid genus Bembidion. All eight genes perform well for Cenozoic divergences and accurately separate closely related species within Bembidion, but individual genes differ markedly in accuracy over the older Mesozoic and Permian divergences. The concatenated data reconstruct the test phylogeny with high support in both Bayesian and parsimony analyses, indicating that combining data from multiple nuclear loci will be a fruitful approach for assembling the beetle tree of life.
Mol
Phylogenet Evol 2008 Sep
PMID:Evaluating nuclear protein-coding genes for phylogenetic utility in beetles. 1864 35
Nucleotide sequence data were generated from the gene regions COI, 16S, and
arginine kinase
to assess genetic variation within the Palearctic parasitoid, Microctonus aethiopoides, reared from Sitona discoideus, S. hispidulus, and Hypera postica collected from two proximate locations in Mediterranean France. Partitioned Bayesian phylogenetic analyses of the molecular data provided strong support for the presence of at least two M. aethiopoides biotypes, one associated with Hypera species and the other with Sitona species. These new results combined with previously published data from 14 countries show that M. aethiopoides genetic variation is much more strongly correlated with host taxon than with sampling location. This contrasts with earlier perceptions that M. aethiopoides exhibits significant geographic variation, and helps to explain the widely varying biological control outcomes that have been obtained following the introductions of M. aethiopoides to Australia, New Zealand, and North America. The results strongly suggest that success rates and environmental safety in biological control would both be improved by ensuring that parasitoids collected in the native range are reared from the same host species as the one being targeted for control in the region of introduction. The results also provided insights both on the evolution of M. aethiopoides' host range, and on its evolutionary transition between solitary and gregarious larval development.
Mol
Phylogenet Evol 2008 Nov
PMID:Hosts are more important than destinations: What genetic variation in Microctonus aethiopoides (Hymenoptera: Braconidae) means for foreign exploration for natural enemies. 1876 Oct 95
Annelids as a group express a variety of phosphagen kinases including creatine kinase (CK), glyocyamine kinase (GK), lombricine kinase (LK), taurocyamine kinase (TK) and a unique
arginine kinase
(AK) restricted to annelids. In prior work, we have determined and compared the intron/exon organization of the annelid genes for cytoplasmic GK, LK, AK, and mitochondrial TK and LK (MiTK and MiLK, respectively), and found that these annelid genes, irrespective of cytoplasmic or mitochondrial, have the same 8-intron/9-exon organization strikingly similar to mitochondrial CK (MiCK) genes. These results support the view that the MiCK gene is basal and ancestral to the phosphagen kinases unique to annelids. To gain a greater understanding of the evolutionary processes leading to the diversity of annelid phosphagen kinases, we determined for the first time the intron/exon organization of a cytoplasmic CK gene from a polychaete as well as that of another polychaete MiCK gene. These gene structures, coupled with a phylogenetic analyses of annelid enzymes and assessment of the fidelity of substrate specificity of some these phosphagen kinases, provide insight into the pattern of radiation of the annelid enzymes. Annelid phosphagen kinases appeared to have diverged in the following order (earliest first): (1) cytoplasmic AK, LK and TK, (2) GK, and (3) mitochondrial MiLK and MiTK. Interestingly, phylogenetic analyses showed that the above phosphagen kinases appear to be basal to all CK isoforms (mitochondrial, cytoplasmic and flagellar CKs). This somewhat paradoxical placement of CKs most likely reflects a higher rate of evolution and radiation of the annelid-specific LK, TK and GK genes than the CK isoform genes.
Comp Biochem Physiol B Biochem
Mol
Biol 2009 Jan
PMID:Evolution of the diverse array of phosphagen systems present in annelids. 1885 60
<< Previous
1
2
3
4
5
Next >>
