A New Approach to Separate the Genus Photobacterium from Vibrio with RFLP Patterns by HhaI Digestion of PCR-Amplified 16S rDNA

A new approach to separate members of the genus Photobacterium from the genus Vibrio with RFLP (Restriction Fragment Length Polymorphism) patterns by HhaI digestion of PCR-amplified 16S rDNA was developed in the present study. It was clearly shown that these patterns of the genus Photobacterium were unique and distinguishable from Vibrio species. This method is very simple and does not need other supporting procedures, such as Southern transfer and probe hybridization. It can be applied not only to luminous species, but also to non-luminous Photobacterium spp. This result promises a rapid tool to distinguish the genus Photobacterium from Vibrio and should be useful in routine identification system. Received: 21 July 1997 / Accepted: 26 August 1997     

Phylogenetic identification of epibiotic bacteria possessing antimicrobial activities isolated from red algal species of Japan

We investigated the diversity of epibiotic bacteria possessing antimicrobial activity isolated from nine species of red algae, and identified their phylogenetic position. For the isolation of epibiotic bacteria, nine species of red algae, Pachymeniopsis lauceolata, Plocamium telfairiae, Gelidium amansii, Chondrus oncellatus, Grateloupia filicina, Ceramium kondoi, Lomentaria catenata, Schizymenia dubyi and Porphyra yezoensis, were collected from the intertidal zone of Awaji Island, Japan. In total 92 bacteria were collected from the above red algal species. Primary screening results using disc diffusion assay revealed that 33% of bacteria possess antibacterial activity. Ten bacteria that showed high antibacterial activity were further studied for their ability to inhibit a set of fouling bacteria, some luminescent Vibrio and Photobacterium species and a panel of pathogenic bacteria. In general, the inhibitory activities were high against fouling and luminescent bacteria, while low against various pathogenic bacteria tested. These results suggest that some epibiotic bacteria have adapted to defend their position in their surface environment through the production of antibacterial metabolites giving defense against a broad spectrum of bacterial competitors. The phylogenetic analysis using 16 S rRNA sequences identified 7 of the 10 strains as belonging to the genus Bacillus, and other strains each 1 belonging to genus Microbacterium, Psychrobacter, and Vibrio species.     

Evolutionary relationships in Vibrio and Photobacterium as determined by immunological studies of superoxide dismutase

The amino acid sequence divergence of superoxide dismutases (SODs) from 22 species and five groups of Vibrio, Photobacterium, and a number of related organisms was determined by means of the microcomplement fixation technique and the Ouchterlony double diffusion procedure. Five reference antisera were used which had been prepared against the purified SODs from V. alginolyticus, V. splendidus II, V. fischeri, V. cholerae, and P. leiognathi. With a few exceptions the results were in agreement with past studies of other informational molecules and provided a comprehensive overview of evolutionary relationships in Vibrio and Photobacterium. The genus Vibrio was found to consist of a major group of primarily marine species which included V. fischeri, V. logei, V. splendidus, V. pelagius, V. nereis, V. campbellii, V. harveyi, V. natriegens, V. alginolyticus, V. parahaemolyticus, V. proteolyticus, V. fluvialis, V. vulnificus, V. nigripulchritudo, and V. anguillarum. On the outskirts of this large and relatively heterogeneous group were the fresh water and estuarine species V. cholerae and V. metschnikovii as well as the marine species V. gazogenes. A considerable distance from Vibrio were the related species of Photobacterium: P. phosphoreum, P. leiognathi, and P. angustum. Both genera were distant from species of Aeromonas as well as from Plesiomonas shigelloides, Escherichia coli, and Alteromonas hanedai, a luminous strict aerobe. The agreement between these and previous studies of evolution of informational molecules in Vibrio and Photobacterium is best explained by vertical evolution (involving no genetic exchange between species) rather than by its opposite — horizontal evolution.Non-Standard Abbreviations Anti-Plei, anti-Valg, anti-Vcho, anti-Vfis, anti-Vspl antisera to the Fe-containing superoxide dismutases from Photobacterium leiognathi strain 480, Vibrio alginolyticus strain 90, V. cholerae strain M 13, V. fischeri strain 61, and v. splendidus biotype II strain 2, respectively - AP alkaline phosphatase - ATCC American Type Culture Collection - GS glutamine synthetase - ImD immunological distance - NCMB National Colleciion of Marine Bacteria - NCTC National Collection of Type Cultures - NRC National Research Council of Canada Culture Collection - SDS sodium dodecyl sulfate - SOD superoxide dismutase     

Reevaluation of the taxonomy ofVibrio,beneckea, andPhotobacterium: Abolition of the genusBeneckea

As a result of studies on the evolution of glutamine synthetase and superoxide dismutase, the genusBeneckea has been abolished and its constituent species, along withPhotobacterium fischeri andP. logei, assigned to the genusVibrio. The definitions ofVibrio andPhotobacterium have been modified accordingly.     

The classification of luminescent bacteria

Summary The luminescent bacteria are logically placed in two genera. The common coccoid and frequently non-motile species placed byBeije-rinck first in his genusPhotobacterium, 1889 under the namePhotobacterium phosphorescens syn.Bacterium phosphorescens Fischer, should be recognized as the type species ofPhotobacterium. Other characters indicate that this genus should be placed in the FamilyPseudomonadaceae Winslowet al.. and should include other straight, rod-shaped, luminescent, polar flagellate bacteria that ferment glucose without, however, necessarily producing gas (H₂ and CO₂) as does the type species. The species that have the form of vibrios should be accepted as members of the genusVibrio as suggested by several previous investigators. They have characters much like those ofVibrio comma, the type species of the genusVibrio.     

Phylogenetic Relationships Among Quolls Revisited: The mtDNA Control Region as a Useful Tool

There has been a great deal of interest in determining phylogenetic relationships within the family Dasyuridae due to the widespread distribution, ecological diversity, and relative plesiomorphy of this taxon within the Australasian marsupial radiation. In the past, it has been extremely problematic to determine the phylogenetic relationships among species within Dasyurus, with numerous studies using both morphological and molecular characters providing different topologies. Here, the mitochondrial DNA (mtDNA) control region is used as a novel set of characters in an attempt to identify relationships among the six closely related extant species. Sequences were obtained from multiple individuals representing all extant species of quolls including, when possible, individuals from different geographical regions. Sequences were analyzed using both parsimony criteria and neighbor-joining methods. Results presented here concur with those of Krajewski et al. (1997) in (1) placing D. geoffroii in a highly supported clade with D. spartacus, (2) resolving a monophyletic group of D. albopunctatus + D. geoffroii + D. spartacus, and (3) placing D. hallucatus as the sister taxon to all other species of quolls. Results also show two highly supported and geographically distinct clades of D. maculatus (Tasmanian and mainland) that do not correspond to the currently used subspecific nomenclature. Preliminary results also indicate that there are different clades among geographic groups of D. hallucatus that warrant further investigation. The mtDNA control region is a highly variable locus and may be used in forensic tests for species identification in this genus.     

A phylogenetic hypothesis for Asilidae based on a total evidence analysis of morphological and DNA sequence data (Insecta: Diptera: Brachycera: Asiloidea)

An hypothesis of phylogenetic relationships of Asilidae and its constituent taxa is presented, combining morphological and DNA sequence data in a total evidence framework. It is based on 77 robber fly species, 11 Asiloidea outgroup species, 211 morphological characters of the adult fly, and approximately 7300 bp of nuclear DNA from five genes (18S and 28S rDNA, AATS, CAD, and EF-1α protein-encoding DNA). The equally weighted, simultaneous parsimony analysis under dynamic homology in POY resulted in a single most parsimonious cladogram with a cost of 27,582 (iterative pass optimization; 27,703 under regular direct optimization). Six of the 12 included subfamily taxa are recovered as monophyletic. Trigonomiminae, previously always considered as monophyletic based on morphology, is shown to be non-monophyletic. Two of the three Trigonomiminae genera, Holcocephala Jaennicke, 1867 and Rhipidocephala Hermann, 1926, group unexpectedly as the sister taxon to all other Asilidae. Laphriinae, previously seen in the latter position, is the sister group of the remaining Asilidae. Five other subfamily taxa, i.e. Brachyrhopalinae, Dasypogoninae, Stenopogoninae, Tillobromatinae, and Willistonininae, are also shown to be non-monophyletic. The phylogenetic relationships among the higher-level taxa are partly at odds with findings of a recently published morphological study based on more extensive taxon sampling. The total evidence hypothesis is considered as the most informative one, but the respective topologies from the total-evidence, morphology-only, and molecular-only analyses are compared and contrasted in order to discuss the signals from morphological versus molecular data, and to analyze whether the molecular data outcompete the fewer morphological characters. A clade Apioceridae+Mydidae is corroborated as the sister taxon to Asilidae.     

Phylogenetic patterns in larval host plant and ant association of Indo-Australian Arhopalini butterflies (Lycaenidae: Theclinae)

The Oriental butterfly genus Arhopala is by far the most species‐rich genus within the subfamily Theclinae. We investigated whether biotic interactions with larval host plants or ants are phylogenetically constrained in the evolutionary history of Arhopala, by collating available information on the ecology of Arhopala from the literature as well as from personal observations, and analysing and interpreting these data rigorously in a phylogenetic context. Larvae of all species in the sister‐group of Arhopala and Flos feed on Fabaceae. However, the predominant feeding preference of Arhopala s.l., with the exception of a particular monophyletic and species‐rich group, called ‘Group A’, appears to be centred on Fagaceae, with additional records of Dipterocarpaceae feeding. The preference for Fagaceae has strong phylogenetic inertia, as indicated by T‐PTP tests designed to test for phylogenetic signal. Adding all available life‐history data, using the phylogeny presented before as scaffolding, further increased the phylogenetic signal in host plant data. Feeding on Fabaceae (mainly in the outgroup) and Euphorbiaceae also showed significant phylogenetic signal, but feeding on Dipterocarpaceae did not and was found scattered across the phylogeny. Except for the Dipterocarpaceae, phylogenetic signal in feeding preferences was very clear, even despite uneven taxon sampling and apparent lability in host plant use. Ant association also demonstrated historical constraint, but based on the phylogenetic hypothesis presented here it was not clear whether increased ant association intimacy emerged independently various times in Group A, as well as in several basal groups. Our finding of distinct phylogenetic patterns in the host plant and to a lesser degree in ant association data contradicts the hypothesis that life‐history traits are very labile in the Lycaenidae. © 2005 The Linnean Society of London, Biological Journal of the Linnean Society, 2005, 84 , 225–241.     

Multi-gene analysis reveals previously unrecognized phylogenetic diversity in Aliivibrio

The “Vibrio fischeri species group” recently was reclassified as a new genus, Aliivibrio, comprising four species, Aliivibrio fischeri, Aliivibrio logei, Aliivibrio salmonicida, and Aliivibrio wodanis. Only limited phylogenetic analysis of strains within Aliivibrio has been carried out, however, and taxonomic ambiguity is evident within this group, especially for phenotypically unusual strains and certain strains isolated from bioluminescent symbioses. Therefore, to examine in depth the evolutionary relationships within Aliivibrio and redefine the host affiliations of symbiotic species, we examined several previously identified and newly isolated strains using phylogenetic analysis based on multiple independent loci, gapA, gyrB, pyrH, recA, rpoA, the luxABE region, and the 16S rRNA gene. The analysis resolved Aliivibrio as distinct from Vibrio, Photobacterium, and other genera of Vibrionaceae, and resolved A. fischeri, A. salmonicida, A. logei, and A. wodanis as distinct, well-supported clades. However, it also revealed that several previously reported strains are incorrectly identified and that substantial unrecognized diversity exists in this genus. Specifically, strain ATCC 33715 (Y-1) and several other strains having a yellow-shifted luminescence were not members of A. fischeri. Furthermore, no strain previously identified as A. logei grouped with the type strain (ATCC 29985^T), and no bona-fide strain of A. logei was identified as a bioluminescent symbiont. Several additional strains identified previously as A. logei group instead with the type strain of A. wodanis (ATCC BAA-104^T), or are members of a new clade. Two strongly supported clades were evident within A. fischeri, a phylogenetic structure that might reflect differences in the host species or differences in the ecological incidence of strains. The results of this study highlight the importance of basing taxonomic conclusions on examination of type strains.     

Phylogeny and Molecular Identification of Vibrios on the Basis of Multilocus Sequence Analysis

We analyzed the usefulness of rpoA, recA, and pyrH gene sequences for the identification of vibrios. We sequenced fragments of these loci from a collection of 208 representative strains, including 192 well-documented Vibrionaceae strains and 16 presumptive Vibrio isolates associated with coral bleaching. In order to determine the intraspecies variation among the three loci, we included several representative strains per species. The phylogenetic trees constructed with the different genetic loci were roughly in agreement with former polyphasic taxonomic studies, including the 16S rRNA-based phylogeny of vibrios. The families Vibrionaceae, Photobacteriaceae, Enterovibrionaceae, and Salinivibrionaceae were all differentiated on the basis of each genetic locus. Each species clearly formed separated clusters with at least 98, 94, and 94% rpoA, recA, and pyrH gene sequence similarity, respectively. The genus Vibrio was heterogeneous and polyphyletic, with Vibrio fischeri, V. logei, and V. wodanis grouping closer to the Photobacterium genus. V. halioticoli-, V. harveyi-, V. splendidus-, and V. tubiashii-related species formed groups within the genus Vibrio. Overall, the three genetic loci were more discriminatory among species than were 16S rRNA sequences. In some cases, e.g., within the V. splendidus and V. tubiashii group, rpoA gene sequences were slightly less discriminatory than recA and pyrH sequences. In these cases, the combination of several loci will yield the most robust identification. We can conclude that strains of the same species will have at least 98, 94, and 94% rpoA, recA, and pyrH gene sequence similarity, respectively.     

Electrophoretic mobilities of superoxide dismutases from species ofPhotobacterium,beneckea, vibrio,and selected terrestrial enterobacteria

Cell-free extracts of 93 strains from 23 species and biotypes ofPhotobacterium, Beneckea, andVibrio were electrophoresed on polyacrylamide gels and then stained for superoxide dismutase (SOD) activity. All strains exhibited a single activity band with the exception ofPhotobacterium leiognathi, which had one major and two minor bands. Strains representative of all three genera were found to have SOD activities that were sensitive to treatment with H₂O₂, suggesting that they were iron-containing enzymes. Examination of the effect of gel concentration on relative mobility (Rm) suggested that all the iron-containing SODs had very similar molecular weight. Most species could be distinguished on the basis of differences in the Rm values of their SODs.Vibrio was readily separable fromBeneckea andPhotobacterium. A limited electrophoretic analysis of the SODs fromAeromonas, Serratia, Proteus, Erwinia, and other species of terrestrial enterobacteria indicated groupings that were in agreement with previous studies.     

Praon Haliday (Hymenoptera: Braconidae: Aphidiinae) of Southeastern Europe: key, host range and phylogenetic relationships

A review of species in the genus Praon Haliday, 1833 is presented. Twenty described species are keyed and illustrated with scanning electron micrographs and line drawings. The Praon species presented in this work have been identified from 67 aphid taxa occurring on 120 plant taxa. Furthermore, 87 original parasitoid–aphid–plant associations of the species mentioned in the key are presented. Phylogenetic relationships among Praon species are reconstructed using parsimony and cladistic distance methods. Praon abjectum is the sister taxon to the remaining Praon species. We recognized three species group: “Parapraon”, “dorsale-yomenae” and “rosaecola”. Monophyly is suggested for “Parapraon” species group and paraphyly for “dorsale-yomenae” group. Finally, by phylogenetic reconstruction, a close phylogenetic relationship between “Parapraon” and “dorsale-yomenae” species group was found.     

中国北部湾光裸方格星虫可培养微生物的分离鉴定及其活性代谢物产生菌筛选

【目的】本研究从北部湾海域光裸方格星虫(Sipunculus nudus)肠道中分离鉴定可培养微生物,并对筛选菌株的代谢物活性进行研究,为后续开发和利用光裸方格星虫肠道微生物代谢产物提供理论支持。【方法】通过微生物培养、菌株分离纯化和16S rRNA基因序列分析,分析鉴定湛江、北海、防城港三地光裸方格星虫肠道可培养微生物;采用透明圈法、可见分光光度法、平板打孔法等对产胞外活性代谢物的菌株进行筛选和活性分析。【结果】中国北部湾不同海域光裸方格星虫肠道可培养微生物包括弧菌属(Vibrio)、希瓦氏菌属(Shewanella)、假交替单胞菌属(Pseudoalteromonas)、发光杆菌属(Photobacterium)和芽孢杆菌属(Bacillus)等12个细菌属。弧菌属(Vibrio)是3个地区样本共有的优势菌群。具有产胞外水解蛋白酶、壳聚糖酶、多糖以及抑菌活性等能力的菌株主要来自假交替单胞菌属(Pseudoalteromonas)、发光杆菌属(Photobacterium)和芽孢杆菌属(Bacillus)。【结论】中国北部湾不同海域光裸方格星虫肠道可培养微生物在属的种类上存在显著性差异,且光裸方格星虫肠道菌株具有产生多种胞外活性代谢物的能力,是一种良好的海洋活性代谢物来源。     

Composition en bases de l'ADN et position taxonomique de bactéries marines fermentant le glucose,du genre Vibrio et des genres voisins

Résumé L'analyse du GC% des souches marines appartenant au genre Vibrio confirme leur classement préalable, obtenu selon la méthode adansonnienne. La comparaison, tant par la valeur de leur GC% que par leur similitude phénotypique, des genres Photobacterium et Beneckea avec le genre Vibrio montre que la différenciation de ces trois genres n'est pas très nette.Le genre Vibrio se subdivise en quatre groupes de souches. Un premier groupe comprend les souches marines libres. Le second groupe rassemble les souches marines parasites des animaux poïkilothermes. Le troisième groupe est composé de souches, capables de parasiter les animaux poïkilothermes comme les animaux homéothermes. Enfin, le dernier groupe est constitué, contrairement aux trois premiers, par des souches ne nécessitant pas de NaCl pour croître.On constate que ces quatre groupes ont une localisation écologique différente.

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Deoxyribonucleic acid base composition and taxonomic relationships among marine usual characters and related bacteria

Summary DNA base composition of marine strains of genus Vibrio corroborate the results obtained by the adansonian method of classification.Comparisons of phenotypic and GC% values of genera Photobacterium and Beneckea with the genus Vibrio show that differentiation between these three genera is not clear.Genus Vibrio can be separated in four groups. The first contains free-living marine strains. The second group includes the marine strains pathogenic to poïkilothermic animals. The third group is composed of strains pathogenic to poïkilothermic and homeothermic animals. The last group is made up of strains which, contrary to the other groups, have shown no specific requirement of sodium for growth. We ascertain that each group has a typical ecologic localization.

     

Mitochondrial <Emphasis Type="Italic">matR</Emphasis> sequences help to resolve deep phylogenetic relationships in rosids

Background  

Rosids are a major clade in the angiosperms containing 13 orders and about one-third of angiosperm species. Recent molecular analyses recognized two major groups (i.e., fabids with seven orders and malvids with three orders). However, phylogenetic relationships within the two groups and among fabids, malvids, and potentially basal rosids including Geraniales, Myrtales, and Crossosomatales remain to be resolved with more data and a broader taxon sampling. In this study, we obtained DNA sequences of the mitochondrial matR gene from 174 species representing 72 families of putative rosids and examined phylogenetic relationships and phylogenetic utility of matR in rosids. We also inferred phylogenetic relationships within the "rosid clade" based on a combined data set of 91 taxa and four genes including matR, two plastid genes (rbcL, atpB), and one nuclear gene (18S rDNA).     

A total evidence analysis of the phylogeny of hatchet-faced treefrogs (Anura: Hylidae: Sphaenorhynchus)

The Neotropical hylid genus Sphaenorhynchus includes 15 species of small, greenish treefrogs widespread in the Amazon and Orinoco basins, and in the Atlantic Forest of Brazil. Although some studies have addressed the phylogenetic relationships of the genus with other hylids using a few exemplar species, its internal relationships remain poorly understood. In order to test its monophyly and the relationships among its species, we performed a total evidence phylogenetic analysis of sequences of three mitochondrial and three nuclear genes, and 193 phenotypic characters from all species of Sphaenorhynchus. Our results support the monophyly of Sphaenorhynchus with molecular and phenotypic evidence, with S. pauloalvini as the earliest diverging taxon, followed by S. carneus, as the sister taxon of all remaining species of the genus. We recognize three species groups in Sphaenorhynchus (the S. lacteus, S. planicola and S. platycephalus groups), to facilitate its taxonomic study; only three species (S. carneus, S. pauloalvini and S. prasinus) remain unassigned to any group. Sequence data were not available for only two species (S. bromelicola and S. palustris) for which we scored phenotypic data; wildcard behaviour was detected only in S. bromelicola nested inside the S. platycephalus group. On the basis of the resulting phylogenetic hypothesis, we discuss the evolution of oviposition site and a number of phenotypic characters that could be associated with heterochronic events in the evolutionary history of this group.     

The systematics of right whales (Mysticeti: Balaenidae)

Balaenidae (right whales) are large, critically endangered baleen whales represented by four living species. The evolutionary relationships of balaenids are poorly known, with the number of genera, relationships to fossil taxa, and position within Mysticeti in contention. This study employs a comprehensive set of morphological characters to address aspects of balaenid phylogeny. A sister‐group relationship between neobalaenids and balaenids is strongly supported, although this conflicts with molecular evidence, which may be an artifact of long‐branch attraction (LBA). Monophyly of Balaenidae is supported, and three major clades are recognized: (1) extinct genus Balaenula, (2) extant and extinct species of the genus Eubalaena, and (3) extant and extinct species of the genus Balaena plus the extinct taxon, Balaenella. The relationships of these clades to one another, as well as to the early Miocene stem balaenid, Morenocetus parvus, remain unresolved. Pliocene taxa, Balaenula astensis and Balaenula balaenopsis, form a clade that is the sister group to the Japanese Pliocene Balaenula sp. Eubalaena glacialis and Pliocene Eubalaena belgica, are in an unresolved polytomy with a clade including E. japonica and E. australis. Extant and fossil species of Balaena form a monophyletic group that is sister group to the Dutch Pliocene Balaenella, although phylogenetic relationships within Balaena remain unresolved.     

Analysis of RNA Polymerase Beta Subunit (<Emphasis Type="Italic">rpoB</Emphasis>) Gene Sequences for the Discriminative Power of Marine <Emphasis Type="Italic">Vibrio</Emphasis> Species

In the present study, we sequenced the RNA polymerase beta subunit (rpoB) gene of marine Vibrio species and assessed its discriminative power in identifying vibrios. Both the rpoB and 16S rRNA sequences of 29 phenotypically different Vibrio strains isolated from coastal waters were determined. Molecular and phylogenetic comparisons of the sequences of these two genes classified the 29 strains into 11 different species. The resolution of the Vibrio spp. on the rpoB phylogenetic tree was approximately three times greater than that on the 16S rRNA phylogenetic tree. Moreover, by comparing the rpoB sequences of 98 marine γ-Proteobacteria, including 38 marine Vibrio species, Vibrio-specific primers were developed to amplify a 730-bp fragment of the rpoB gene. Using these primers, we successfully detected Vibrio signals in environmental samples and determined their relative abundances via comparisons with known standards. This rpoB-targeting polymerase chain reaction assay can be used efficiently to monitor relative Vibrio abundance in marine waters.     

The phylogenetic position of the bumble bee inquiline Bombus inexspectatus and implications for the evolution of social parasitism

The high alpine European bumble bee Bombus (Thoracobombus) inexspectatus is one of three taxa in which obligate social parasitism has evolved in bumble bees. Until now, the phylogenetic placement of this species has not been analyzed quantitatively because it is rare in nature. Here a specimen of B. inexspectatus is sequenced for five genes to assess its phylogenetic position relative to other bumble bee species. Phylogenetic estimation of B. inexspectatus places this species within the subgenus Thoracobombus, as expected based on morphology. This provides strong support for the acquisition of social parasitism in B. inexspectatus separate from that found in the bumble bees of the subgenus Psithyrus and B. (Alpinobombus) hyperboreus. Furthermore, B. inexspectatus is not the sister taxon of its host but is a near relative, suggesting a loose but not strict adherence to Emery’s rule. B. inexspectatus is a sister taxon to a clade including B. veteranus, a frequent nest usurper that has been suggested to be a facultative social parasite. The phylogenetic placement of all bumble bee social parasites relative to their hosts is discussed.     

Re-examination of the phylogeny of Rhacophoridae (Anura) based on mitochondrial and nuclear DNA

The phylogenetic relationships among rhacophorid frogs are under dispute. We use partial sequences of three mitochondrial (12S rRNA, 16S rRNA, and cytochrome b) and three nuclear protein-coding (Rag-1, rhodopsin exon 1, and tyrosinase exon 1) genes from 57 ingroup taxa and eight outgroup taxa to propose a hypothesis for phylogenetic relationships within Rhacophoridae. Our results support recognition of the genus Feihyla, and Chiromantis is the sister taxon to the clade formed by Feihyla, Polypedates and Rhacophorus. We place Aquixalus odontotarsus within Kurixalus, and the remaining species of Aquixalus and Philautus jinxiuensis into the genus Gracixalus. We give Philautus (Kirtixalus) the rank of genus and place Philautus menglaensis within it. The division of species groups among Chinese Rhacophorus needs revision, and a cryptic species is revealed within Rhacophorus nigropunctatus. Rhacophorus pingbianensis is considered a synonym of Rhacophorus omeimontis. The validity of Rhacophorus hui is confirmed by present molecular evidence.