Your search keyword '"Brachyura classification"' showing total 320 results

1. Mitogenome selection shaped the terrestrial adaptation of Grapsidae (Decapoda: Brachyura).

Author

Wang Z, Xu Z, Chen H, Zheng Y, Wang Z, and Chen X

Subjects

Animals, Evolution, Molecular, Ecosystem, Brachyura genetics, Brachyura physiology, Brachyura classification, Genome, Mitochondrial, Phylogeny, Selection, Genetic, Adaptation, Physiological genetics

Abstract

The colonization of aquatic to terrestrial habitats by brachyuran crabs requires genetic innovations as well as morphological adaptations to adapt to terrestrial environments. The genetic basis of such adaptive evolution, however, is largely unknown. This study focuses on terrestrialization in Geograpsus (Grapsidae) the only highly terrestrial genus in this family, which represents a notable example of terrestrial adaptive radiation. Here, we sequenced the mitogenomes of two Geograpsus species and used the mitogenomes of 215 representative crabs to construct phylogenetic and time frameworks that we used to infer terrestrial origins and evolution. Using mitochondrial genomic data, we demonstrated that marine crab ancestors began to settle on land during the early Eocene. Ocean acidification, the Paleocene-Eocene Thermal Maximum (PETM), and mangrove expansion at that time may have driven the diversification and ecological expansion of these terrestrial crabs. Evolutionary analyses reveal strong positive selection signals on monophyletic lineages of Grapsidae, especially the terrestrial species of Geograpsus. Positively selected sites in functionally important regions of ND5 and ND4 may imply enhanced energy metabolism in Grapsidae compared to other crabs, and may have played an important role in their terrestrial adaptation. Overall, our work provides valuable resources and opportunities to reveal the adaptation of crabs to complex terrestrial environments., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

2. Geographical traceability of flavor compounds in Chinese mitten crab (Eriocheir sinensis): Implications for quality differentiation, authenticity assessment, and mechanism research.

Author

Li J, Nie Z, Hu J, Wang L, Song C, Xu D, Gao J, Xu P, and Xu G

Subjects

Animals, China, Flavoring Agents chemistry, Flavoring Agents analysis, Gas Chromatography-Mass Spectrometry, Quality Control, Taste, Geography, Hepatopancreas chemistry, Brachyura chemistry, Brachyura classification, Shellfish analysis

Abstract

Geographical traceability plays a crucial role in ensuring quality assurance, brand establishment, and the sustainable development of the crab industry. In this study, we examined the possibility of using gas chromatography-ion mobility spectrometry with multivariate statistical authenticity analysis to identify the origin of crabs from five sites downstream of the Yangtze River. Significant variations were observed in the levels of alcoholic flavor compounds in the hepatopancreas and muscles of crabs from different geographical locations, and a support vector machine exhibited discriminant ability with 100% accuracy. These flavor variations exhibited significant correlations with the types and concentrations of elements within the crabs, as well as with free amino acids. This study offers a practical approach for determining the geographical traceability of Chinese mitten crabs and elucidates the role of elements in flavor modulation, thereby providing innovative strategies to enhance the efficiency of crab farming., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

3. Development of metabolomic biomarkers to discriminate the geographical origin of Korean and Russian snow crabs using CE-TOF/MS.

Author

Shin J, Yang J, Kim H, Sim Y, Cha E, and Yang JY

Subjects

Animals, Russia, Republic of Korea, Mass Spectrometry, Discriminant Analysis, Shellfish analysis, Metabolomics, Biomarkers analysis, Biomarkers metabolism, Brachyura chemistry, Brachyura metabolism, Brachyura classification, Electrophoresis, Capillary

Abstract

The quantity of snow crabs (Chionoecetes opilio) harvested in Korea is subject to seasonal restrictions; therefore, snow crabs are imported from Russia. Metabolites in snow crabs from two geographic origins were compared. The metabolites were subjected to metabolomic analysis to prevent fraudulent sales of marine products from a particular country. Capillary electrophoresis time-of-flight mass spectrometry was used. Seventy-seven target metabolites were identified using a mass spectral library. Through orthogonal partial least squares discriminant analysis, the top 25 biomarker candidates were evaluated based on p-values and fold changes. A total of 246 peaks (187 and 59 in the cation and anion modes, respectively) were identified. Among the biomarker candidates, 2-oxovaleric acid, asymmetric dimethylarginine, hypotaurine, and allo-threonine were selected as final biomarkers to unequivocally determine the geographic origin. Overall, metabolic analyses allowed us to differentiate snow crabs from different geographic origins. This method could also be extended of other marine products., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

4. Phylogenomic analysis of brachyuran crabs using transcriptome data reveals possible sources of conflicting phylogenetic relationships within the group.

Author

Pan D, Sun Y, Shi B, Wang R, Ng PKL, Guinot D, Cumberlidge N, and Sun H

Subjects

Animals, Brachyura genetics, Brachyura classification, Phylogeny, Transcriptome

Abstract

Despite extensive morphological and molecular studies, the phylogenetic interrelationships within the infraorder Brachyura and the phylogenetic positions of many taxa remain uncertain. Studies that used a limited number of molecular markers have often failed to provide sufficient resolution, and may be susceptible to stochastic errors and incomplete lineage sorting (ILS). Here we reconstructed the phylogenetic relationships within the Brachyura using transcriptome data of 56 brachyuran species, including 14 newly sequenced taxa. Five supermatrices were constructed in order to exclude different sources of systematic error. The results of the phylogenetic analyses indicate that Heterotremata is non-monophyletic, and that the two Old World primary freshwater crabs (Potamidae and Gecarcinucidae) and the Hymenosomatoidea form a clade that is sister to the Thoracotremata, and outside the Heterotremata. We also found that ILS is the main cause of the gene-tree discordance of these freshwater crabs. Divergence time estimations indicate that the Brachyura has an ancient origin, probably either in the Triassic or Jurassic, and that the majority of extant families and superfamilies first appeared during the Cretaceous, with a constant increase of diversity in Post-Cretaceous-Palaeogene times. The results support the hypothesis that the two Old World freshwater crab families included in this study (Potamidae and Gecarcinucidae) diverged from their marine ancestors around 120 Ma, in the Cretaceous. In addition, this work provides new insights that may aid in the reclassification of some of the more problematic brachyuran groups., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

5. The mitochondrial genome of Bottapotamon fukienense (Brachiura: Potamidae) is fragmented into two chromosomes.

Author

Cheng WX, Wang J, Mao ML, Lu YB, and Zou JX

Subjects

Animals, Chromosomes genetics, Phylogeny, Evolution, Molecular, Brachyura genetics, Brachyura classification, Pseudogenes, Genome, Mitochondrial

Abstract

Background: China is the hotspot of global freshwater crab diversity, but their wild populations are facing severe pressures associated with anthropogenic factors, necessitating the need to map their taxonomic and genetic diversity and design conservation policies., Results: Herein, we sequenced the mitochondrial genome of a Chinese freshwater crab species Bottapotamon fukienense, and found that it is fragmented into two chromosomes. We confirmed that fragmentation was not limited to a single specimen or population. Chromosome 1 comprised 15,111 base pairs (bp) and there were 26 genes and one pseudogene (pseudo-nad1) encoded on it. Chromosome 2 comprised 8,173 bp and there were 12 genes and two pseudogenes (pseudo-trnL2 and pseudo-rrnL) encoded on it. Combined, they comprise the largest mitogenome (23,284 bp) among the Potamidae. Bottapotamon was the only genus in the Potamidae dataset exhibiting rearrangements of protein-coding genes. Bottapotamon fukienense exhibited average rates of sequence evolution in the dataset and did not differ in selection pressures from the remaining Potamidae., Conclusions: This is the first experimentally confirmed fragmentation of a mitogenome in crustaceans. While the mitogenome of B. fukienense exhibited multiple signs of elevated mitogenomic architecture evolution rates, including the exceptionally large size, duplicated genes, pseudogenisation, rearrangements of protein-coding genes, and fragmentation, there is no evidence that this is matched by elevated sequence evolutionary rates or changes in selection pressures., (© 2024. The Author(s).)

Published

2024

6. Convergent Adaptation of True Crabs (Decapoda: Brachyura) to a Gradient of Terrestrial Environments.

Author

Wolfe JM, Ballou L, Luque J, Watson-Zink VM, Ahyong ST, Barido-Sottani J, Chan TY, Chu KH, Crandall KA, Daniels SR, Felder DL, Mancke H, Martin JW, Ng PKL, Ortega-Hernández J, Palacios Theil E, Pentcheff ND, Robles R, Thoma BP, Tsang LM, Wetzer R, Windsor AM, and Bracken-Grissom HD

Subjects

Animals, Adaptation, Physiological genetics, Biological Evolution, Ecosystem, Adaptation, Biological, Brachyura classification, Brachyura anatomy & histology, Brachyura physiology, Brachyura genetics, Phylogeny, Fossils

Abstract

For much of terrestrial biodiversity, the evolutionary pathways of adaptation from marine ancestors are poorly understood and have usually been viewed as a binary trait. True crabs, the decapod crustacean infraorder Brachyura, comprise over 7600 species representing a striking diversity of morphology and ecology, including repeated adaptation to non-marine habitats. Here, we reconstruct the evolutionary history of Brachyura using new and published sequences of 10 genes for 344 tips spanning 88 of 109 brachyuran families. Using 36 newly vetted fossil calibrations, we infer that brachyurans most likely diverged in the Triassic, with family-level splits in the late Cretaceous and early Paleogene. By contrast, the root age is underestimated with automated sampling of 328 fossil occurrences explicitly incorporated into the tree prior, suggesting such models are a poor fit under heterogeneous fossil preservation. We apply recently defined trait-by-environment associations to classify a gradient of transitions from marine to terrestrial lifestyles. We estimate that crabs left the marine environment at least 7 and up to 17 times convergently, and returned to the sea from non-marine environments at least twice. Although the most highly terrestrial- and many freshwater-adapted crabs are concentrated in Thoracotremata, Bayesian threshold models of ancestral state reconstruction fail to identify shifts to higher terrestrial grades due to the degree of underlying change required. Lineages throughout our tree inhabit intertidal and marginal marine environments, corroborating the inference that the early stages of terrestrial adaptation have a lower threshold to evolve. Our framework and extensive new fossil and natural history datasets will enable future comparisons of non-marine adaptation at the morphological and molecular level. Crabs provide an important window into the early processes of adaptation to novel environments, and different degrees of evolutionary constraint that might help predict these pathways. [Brachyura; convergent evolution; crustaceans; divergence times; fossil calibration; molecular phylogeny; terrestrialization; threshold model.]., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Society of Systematic Biologists.)

Published

2024

7. Fiddler crabs from highly disturbed beaches are more sensitive to human presence.

Author

Rodriguez GB, Costa TM, Culot L, and Sobral G

Subjects

Animals, Male, Humans, Brazil, Brachyura physiology, Brachyura classification, Behavior, Animal physiology

Abstract

The presence of humans frequently modifies the behavior of animals, particularly their foraging patterns, compromising energetic demands. The fiddler crab Leptuca leptodactyla inhabits mangroves with high degrees of anthropogenic influence. Thus, we tested if populations living in highly anthropized mangroves respond differently from those living in more protected areas. We predict that individuals from touristy areas will be more tolerant to humans and will resume their activities sooner after disturbance. To do so, we conducted an experiment that consisted in the approach of an observer to the burrows, recording the response of individuals to the stimuli. The experiment took place in July 2022, in Ubatuba, São Paulo, Brazil. We analysed the duration and latency of various behaviors of a total of 80 adult males from two populations (high and low anthropogenic influence). Contrary to our predictions, individuals from the anthropized population were less tolerant, spending more time inside their burrows and taking longer to resume their activities. Therefore, fiddler crabs were not habituated to human presence. These results help us understand the learning process in invertebrates and their ability to select stimuli, contributing to understanding the impacts of human-wildlife interactions.

Published

2024

8. Phylogeography of the freshwater crab Potamon persicum (Decapoda: Potamidae): an ancestral ring species?

Author

Amir Afzali Y, Naderloo R, Keikhosravi A, and Klaus S

Subjects

Animals, Phylogeny, Iran, Ecosystem, Fresh Water, Brachyura genetics, Brachyura classification, Population Density, Sequence Analysis, DNA, Bayes Theorem, Phylogeography, Haplotypes, Gene Flow, Genetics, Population, DNA, Mitochondrial genetics, Genetic Variation

Abstract

The Zagros Mountains, characterized by complex topography and three large drainage systems, harbor the endemic freshwater crab Potamon persicum in Iran. Our study delves into the evolutionary history of P. persicum, utilizing two mitochondrial and one nuclear marker. We collected 214 specimens from 24 localities, identifying 21 haplotypes grouped into two major evolutionary lineages. Substantial differentiation exists between drainage systems and lineages. Historical demographic analysis revealed a significant decrease in population size during the late Holocene, accompanied by a recent population bottleneck. Species distribution modeling has revealed eastward shifts in suitable habitats between the last glacial maximum and the present day. Following the last glacial maximum, habitat fragmentation occurred, resulting in the establishment of small populations. These smaller populations are more vulnerable to climatic and geological events, thereby limiting gene flow and accelerating genetic differentiation within species. Historical biogeographic analysis traced the origin of P. persicum to the western Zagros Mountains, with major genetic divergence occurring during the Pleistocene. Our genetic analyses suggest that P. persicum may have shown a genetic pattern similar to a classical ring species before the Pleistocene. The Namak Lake sub-basin could have served as a contact zone where populations did not interbreed but were connected through gene flow in a geographic ring. Currently, genetic separation is evident between basins, indicating that P. persicum in the Zagros Mountains is not a contemporary ring species. Also, our biogeographical analysis estimated that range evolution may have been driven initially by dispersal, and only during the late Pleistocene by vicariance., (© The Author(s) 2024. Published by Oxford University Press on behalf of The American Genetic Association. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

9. Multi-gene phylogeny of the primary freshwater crab genus Ptychophallus Smalley, 1964 (Pseudothelphusidae: Ptychophallinae) from the Neotropical region.

Author

Mantelatto FL, Magalhães C, Souza-Carvalho EA, Pantaleão JAF, and Wehrtmann IS

Subjects

Animals, Species Specificity, Phylogeny, Brachyura genetics, Brachyura classification, Brachyura anatomy & histology

Abstract

The diversity of primary freshwater crabs of Central America is underestimated and poorly known, specially when considering both Atlantic and Pacific drainages distribution. Among the family Pseudothelphusidae Ortmann, 1893, the genus Ptychophallus Smalley, 1964 was recently revised using morphological data and encompassing 14 valid species, which are distributed exclusively in Costa Rica and Panama. Despite the informative scenario constructed with this previous study, some uncertainties remained such as those related to the populations distributed along different drainages and the lack of complete information regarding the phylogenetic relationships among the species that belong to this genus. Our phylogenetic reconstruction based on multigenes revealed four lineages. Ptychophallus costaricensis, P. colombianus, P. lavallensis, P. montanus, and P. tumimanus are well-established species, while P. paraxanthusi, P. exilipes and P. tristani were recovered as non-monophyletic in some relationships. Ptychophallus tristani and P. paraxanthusi were determined to be close relatives one with other, but with some representatives showing no clear correspondence and positioning in the molecular phylogeny, which raised doubts about the validity as separate species and/or the accuracy of identifications for some GenBank sequences. Ptychophallus tumimanus and P. montanus are morphologically very similar, but they are positioned in distinct clades. The genetic results confirmed a previous proposal that P. barbillaensis is a junior synonym of P. uncinatus, and P. bilobatus is closely related to P. uncinatus. The findings revealed the presence of one peculiar lineage with one species from Costa Rica compound by the resurrected P. campylus and another species from Costa Rica, originally identified as "P. cf. exilipes"; its morphology, however, did not match with any other analyzed species, which requires further analysis. Finally, possible misidentification in some sequences deposited in the GenBank were detected and should be reviewed. The reconstructed molecular phylogeny for the genus that inhabits both Atlantic and Pacific drainages of Central America provides a better understanding of the knowledge on the evolution of freshwater crabs and represents key information that will serve as baseline for further taxonomic studies on the cryptic biodiversity of this group., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier GmbH. All rights reserved.)

Published

2024

10. Analysis of the Overlength Main Noncoding Region in Metacarcinus magister (Decapoda: Brachyura) and a Phylogenetic Study of the Cancroidea Species.

Author

Wang Z, Xu X, Zheng Y, Xu Z, Li Y, and Chen H

Subjects

Animals, RNA, Transfer genetics, Evolution, Molecular, RNA, Ribosomal genetics, Phylogeny, Genome, Mitochondrial, Brachyura genetics, Brachyura classification

Abstract

Complete mitochondrial genomes (mitogenomes) can provide important information regarding the molecular evolution and phylogenetic relationships of marine invertebrates, especially in Brachyura. Only one Cancroidea species of mitogenomes has been sequenced before; in this research, the mitogenomic characteristics of Metacarcinus magister (Cancridae: Cancroidea) are newly studied. The length of the M. magister mitogenome was 48,820 bp, and it contained the typical 13 protein-coding genes, 2 ribosomal RNA genes, and 22 transfer RNA genes. We performed a series of analyses on the characteristics of the mNCR of M. magister . The phylogenetics, life circumstances, and selective pressures were all analyzed to explain the formation of this length, which revealed the length of the M. magister mitogenome to be approximately three times greater than the normal length of Brachyuran mitogenomes. Phylogenetic analyses based on a dataset of 215 Decapodan mitogenomes indicated that all Eriphioidea crabs were clustered together as a group. Moreover, the rearrangement mechanism of the Cancroidea species was predicted to provide stronger evidence for the phylogenetic analysis. In general, the results obtained in this study will contribute to a better understanding of the cause of the unusual length of the M. magister mitogenome and provide new insights into the phylogeny of Brachyura.

Published

2024

11. Review of the pilumnid crab genus Lophoplax Tesch, 1918 from the western Pacific, with descriptions of two new species, and the clarification of the identity of Pseudocryptocoeloma parvus Ward, 1936 (Crustacea: Brachyura).

Author

Ng PKL and Rahayu DL

Subjects

Animals, Brachyura classification

Abstract

The taxonomy of the pilumnid crab genus Lophoplax Tesch, 1918, is discussed. Lophoplax sculpta Stimpson, 1858) is redescribed and a neotype is selected in the interests of nomenclatural stability. Two new species allied to L. sculpta are described: L. sordida n. sp. from Indonesia, and L. pannosa n. sp. from Vanuatu. Pilumnus vermiculatus A. Milne-Edwards, 1873, is here transferred to Lophoplax. The poorly known Pseudocryptocoeloma parvus Ward, 1936 (type species of Pseudocryptocoeloma Ward, 1936), known only from Australia thus far, is redescribed and figured; and Pseudocryptocoeloma symmetrinudum Edmondson, 1951 (from Samoa and Japan), is transferred to Lophoplax.

Published

2023

12. Discovery of Buea bangem Mvogo Ndongo, von Rintelen, Tomedi-Eyango & Cumberlidge, 2020 (Crustacea: Potamoidea: Potamonautidae: Liberonautinae) from Mt. Nlonako Wildlife Reserve, Cameroon.

Author

Ndongo PAM, Rintelen TV, Clark PF, Shahdadi A, and Cumberlidge N

Subjects

Animals, Cameroon, Brachyura classification

Abstract

N/A.

Published

2023

13. Identification and functional characterization of C-type lectins and crustins provide new insights into the immune response of Portunus trituberculatus.

Author

Zhang Y, Ni M, Zhang P, Bai Y, Zhou B, Zheng J, and Cui Z

Subjects

Amino Acid Sequence, Animals, Anti-Bacterial Agents metabolism, Anti-Bacterial Agents pharmacology, Antimicrobial Cationic Peptides chemistry, Aquaculture, Arthropod Proteins chemistry, Base Sequence, Brachyura classification, Brachyura genetics, Carbohydrates isolation & purification, Immunity, Innate genetics, Lectins, C-Type chemistry, Lectins, C-Type immunology, Phylogeny, Recombinant Proteins genetics, Sequence Alignment, Antimicrobial Cationic Peptides immunology, Brachyura immunology, Lectins, C-Type physiology

Abstract

A meticulous understanding of the immune characteristics of aquaculture animals is the basis for developing precise disease prevention and control strategies. In this study, four novel C-type lectins (PtCTL-5, PtCTL-6, PtCTL-7 and PtCTL-8) including a single carbohydrate-recognition domain (CRD), and four novel crustins (Ptcrustin-1, Ptcrustin-2, Ptcrustin-3 and Ptcrustin-4) with a single whey acidic protein (WAP) domain were identified from the swimming crab Portunus trituberculatus. Tissue distribution analysis indicated that most of the target genes were predominantly expressed in the hepatopancreas in all examined tissues, except for Ptcrustin-1 which were mainly expressed in the gills. Our results showed that the eight genes displayed various transcriptional profiles across different tissues. In hemocytes, the PtCTL-7 responded quickly to Vibrio alginolyticus and exhibited much more strongly up-regulation than other three PtCTLs. The Ptcrustin-1 rapidly responded to V. alginolyticus within 3 h in all the three tested tissues. Furthermore, recombinant proteins of PtCTL-5 and PtCTL-8 were successfully obtained, and both of them displayed bacterial binding activities toward V. alginolyticus, V. harveyi and Staphylococcus aureus, and only showed antibacterial activity against V. harveyi. These findings provided new insights into the diverse immune response of P. trituberculatus and laid theoretical foundations for the development of precise disease prevention and control strategies in P. trituberculatus farming. Moreover, the specific anti-V. harveyi activities exhibited by rPtCTL-5 and rPtCTL-8 suggested their promising application prospects for controlling diseases caused by V. harveyi., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

14. Molecular phylogeography reveals multiple Pleistocene divergence events in estuarine crabs from the tropical West Pacific.

Author

Shahdadi A, von Wyschetzki K, Liu HC, Chu KH, and Schubart CD

Subjects

Animals, Brachyura genetics, China, Electron Transport Complex IV chemistry, Electron Transport Complex IV genetics, Fossils history, Genetics, Population, History, Ancient, Indonesia, Japan, Philippines, Phylogeny, Phylogeography, RNA, Ribosomal, 16S chemistry, RNA, Ribosomal, 16S genetics, RNA, Ribosomal, 16S metabolism, Sequence Analysis, DNA, Taiwan, Biodiversity, Brachyura classification

Abstract

Due to the lack of visible barriers to gene flow, it was a long-standing assumption that marine coastal species are widely distributed, until molecular studies revealed geographically structured intraspecific genetic differentiation in many taxa. Historical events of sea level changes during glacial periods are known to have triggered sequential disjunctions and genetic divergences among populations, especially of coastal organisms. The Parasesarma bidens species complex so far includes three named plus potentially cryptic species of estuarine brachyuran crabs, distributed along East to Southeast Asia. The aim of the present study is to address phylogeography and uncover real and hidden biological diversity within this complex, by revealing the underlying genetic structure of populations and species throughout their distribution ranges from Japan to West Papua, with a comparison of mitochondrial COX1 and 16S rRNA gene sequences. Our results reveal that the P. bidens species complex consists of at least five distinct clades, resulting from four main cladogenesis events during the mid to late Pleistocene. Among those clades, P. cricotum and P. sanguimanus are recovered as monophyletic taxa. Geographically restricted endemic clades are encountered in southeastern Indonesia, Japan and China respectively, whereas the Philippines and Taiwan share two clades. As individuals of the Japanese clade can also be found in Taiwan, we provide evidence of a third lineage and the occurrence of a potential cryptic species on this island. Ocean level retreats during Pleistocene ice ages and present oceanic currents appear to be the main triggers for the divergences of the five clades that are here addressed as the P. bidens complex. Secondary range expansions converted Taiwan into the point of maximal overlap, sharing populations with Japan and the Philippines, but not with mainland China., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

15. The influence of seasonal temperature variation on embryonic development in two species of spider crabs (Majoidea).

Author

González Pisani X and López Greco LS

Subjects

Animal Distribution, Animals, Atlantic Ocean, Brachyura classification, Diapause, Female, Species Specificity, Brachyura embryology, Seasons, Temperature

Abstract

The aim of this study was to analyze the ecological influence of seasonal temperature variations on embryonic development in two species of Majoidea. Leurocyclus tuberculosus and Libinia spinosa. These species inhabit stable populations in the San José Gulf (42°25'41″S, 64°08'27″O, Patagonia-Argentina) in a wide depth range and seasonal temperature variations from 8 °C to 18 °C. The influence of seasonal temperatures on embryonic development was examined in ovigerous females of both species, through a bioassay in laboratory conditions at 8 °C, 14 °C, and 18 °C from gastrula to hatching. Additionally, monthly female samplings were conducted for one year, characterizing their spatial depth distribution associated with the seawater temperature in the study area and their ovigerous/non ovigerous condition. Laboratory experimental results showed that duration of incubation increased 67 % in L. tuberculosus and 55% in L. spinosa by a decline in temperature from 18 °C to 8 °C with one diapause period. The embryonic development for the 3 assayed temperatures was divided in five periods. The assayed temperatures did not affect the morphology of the embryo, and its growth during each period did not present significant differences among the different temperatures. Field analysis showed significant differences in the spatial distribution of ovigerous females which were associated to the assessed temperatures along the year. This distribution might modulate the development of embryos leading to two spawnings synchronized with the phyto- and zooplankton peaks in the San José gulf. Finally, ecological and potential impact of ocean warming in these species was also addressed., (Copyright © 2021 Elsevier GmbH. All rights reserved.)

Published

2021

16. Genetic Identification of all Four Mangrove Mud Crab Species (genus Scylla) Using Multiple Molecular Markers.

Author

Mandal A, Mani AK, Lamech R, Anandajothi E, Venkatachalam SA, Dinakaran GK, Quinitio ET, and Kandan S

Subjects

Animals, Asia, Southeastern, Biomarkers analysis, India, Species Specificity, Brachyura classification, Brachyura genetics

Abstract

Misleading identification and subsequent publications on biological, molecular, and aquaculture data of mangrove mud crab (genus Scylla de Hann 1833) is a major concern in many countries. In this study, multiple molecular markers were used for genetic identification of all four known mud crab species under genus Scylla collected from India, Philippines, Myanmar, Malaysia and Indonesia. Internal Transcribed Spacer (ITS-1), Polymerase chain reaction (PCR)-Restriction Fragment Length Polymorphism (PCR-RFLP) and PCR-based species-specific markers were used to resolve taxonomic ambiguity. PCR-RFLP techniques using NlaIV and BsaJI restriction endonucleases were efficient to differentiate four different mud crab species under genus Scylla with specific fragment profile. The results also justified the use of ITS-1 and PCR-based species-specific markers to identify mud crab species available in many countries quite rapidly and effectively. Several new molecular markers generated during the study are reported here to resolve the taxonomic ambiguity of Scylla species and the results reconfirmed that India is only having two commonly available mud crab species which was reported by the authors earlier.

Published

2021

17. On the identity of Maja ambigua A. Costa, 1840 (Crustacea, Decapoda, Majoidea).

Author

Froglia C

Subjects

Animals, Brachyura classification

Published

2021

18. The first zoeal stage of the yellow land crab Johngarthia lagostoma (Milne Edwards, 1837) (Decapoda: Brachyura: Gecarcinidae).

Author

Lira SMA, DE Lima CDM, Teixeira IÁ, and Schwamborn R

Subjects

Animals, Atlantic Ocean, Brazil, Female, Larva, Phylogeny, Plankton, Brachyura anatomy & histology, Brachyura classification

Abstract

The objective of this paper is to describe and illustrate the first zoeal stage of the largest land crab of the Tropical Atlantic, Johngarthia lagostoma (Milne Edwards, 1837) (Brachyura: Gecarcinidae). A larval description of J. lagostoma was previously not available. Larvae were obtained from ovigerous females on Rocas Atoll and Fernando de Noronha Archipelago, Brazil. Twenty larvae were randomly chosen to be dissected and described in detail, while 40 others (20 larvae from each island) were measured only. The published description of the congener J. planatus (Stimpson, 1860) larvae was used for a comparison of larval morphology. Some morphological differences between the first zoeal stage of these two species were: The absence or presence of a simple shorter seta on antennule, number of the minute terminal spines on the antenna, setation of the coxal endite of the maxilla, exopod unsegmented of the first and second maxilliped, and a single mid-dorsal seta on first pleonite. These results and differences observed between these species can assist in studies on phylogenetic relationships within the Family Gecarcinidae MacLeay, 1838, as well as in the identification of the larvae of J. Lagostoma in plankton samples from the tropical Atlantic.

Published

2021

19. The Entire Mitochondrial Genome of Macrophthalmus abbreviatus Reveals Insights into the Phylogeny and Gene Rearrangements of Brachyura.

Author

Xu X, Wang Q, Wu Q, Xu J, Wang J, and Wang Z

Subjects

Animals, Base Sequence, Brachyura classification, Codon, Evolution, Molecular, Molecular Sequence Annotation, Nucleic Acid Conformation, RNA, Ribosomal chemistry, RNA, Ribosomal genetics, RNA, Transfer chemistry, RNA, Transfer genetics, Brachyura genetics, Gene Rearrangement, Genome, Mitochondrial genetics, Phylogeny

Abstract

Brachyuran crabs comprise the most species-rich clades among extant Decapoda and are divided into several major superfamilies. However, the phylogeny of Brachyuran remains controversial, comprehensive analysis of the overall phylogeny is still lacking. Complete mitochondrial genome (mitogenome) can indicate phylogenetic relationships, as well as useful information for gene rearrangement mechanisms and molecular evolution. In this study, we firstly sequenced and annotated the complete mitogenome of Macrophthalmus abbreviatus (Brachyura; Macrophthalmidae). The mitogenome length of M. abbreviatus is 16,322 bp, containing the entire set of 37 genes and a control region typically observed in Brachyuran mitogenomes. The genome composition of M. abbreviatus was highly A+T biased 76.3% showing positive AT-skew (0.033) and negative GC-skew (- 0.351). In M. abbreviatus mitogenome, most tRNA genes were folded into the clover-leaf secondary structure except trnH, trnS1 and trnC, which was similar to the other species in Macrophthalmidae. Phylogenetic analysis showed that all families form a monophyletic, and Varunidae and Macrophthalmidae clustered into a monophyletic clade as sister groups. Comparative analyses of rearrangement among Brachyura revealed that Varunidae (Grapsoidea) and Macrophthalmidae (Ocypodoidea) had the same gene order, which reinforced the result of phylogeny. The combined results of two aspects revealed that the polyphyly of Ocypodoidea and Grapsoidea were well supported. In general, the results obtained in this research will contribute to further studies on molecular based for the classification and gene rearrangements of Macrophthalmidae or even Brachyura.

Published

2021

20. Pseudolitochira integra (Miers, 1884) (Crustacea: Brachyura: Pilumnidae): redescribed and illustrated from micro-ct scanning the type female.

Author

Ng PKL, Clark PF, Clark B, and Kamanli SA

Subjects

Animals, Female, Pacific Ocean, X-Ray Microtomography, Brachyura anatomy & histology, Brachyura classification

Abstract

The taxonomy of the poorly known pilumnid crab, Pseudolitochira integra (Miers, 1884), has been confused because the original description and figures of the type female have inaccuracies, and the specimen has not been examined in detail since the original publication. Consequently, numerous specimens from the Indo-West Pacific have been incorrectly assigned to P. integra, suggesting that this species is widely distributed. The type female was micro-CT scanned in order to provide video and accurate figures of this rare pilumnid. The female possesses a suite of carapace and pereopodal characters that distinctly distinguish it from other pilumnoid taxa. The species is redescribed, refigured and formally designated as the type species of Pseudolitochira Ward, 1942. The identities of the numerous specimens assigned to P. integra are discussed and the distribution of the species is restricted to the western Indian Ocean for the time being.

Published

2021

21. Description of a new species of emGlassella/em Campos amp; Wicksten, 1997 from a coastal lagoon, SE Gulf of California (Crustacea, Decapoda, Pinnotheridae).

Author

Salgado-Barragán J and Barragán-Zepeda AK

Subjects

Animal Shells, Animals, California, Decapoda, Female, Male, Brachyura classification, Brachyura physiology

Abstract

A new a species of pinnotherid crab in the eastern Pacific coasts is presented. Twenty males and 21 females of small crabs were collected from burrows, presumably from ghost shrimp (Neotrypaea spp.), in sand-mud substrata from the Santa María-La Reforma coastal lagoon, SE Gulf of California. The new species was assigned to the genus Glassella because its morphological characteristics clearly match the amended diagnosis of the genus Glassella by Palacios Theil and Felder (2020) and Felder Palacios Theil (2020), including the presence of a gonopodal plate (GP) inserted in the internal part of the male pleon, similar to that described for most of the species currently grouped into the genus Glassella. The new species is similar to G. miamiensis (McDermott, 2014) from western Atlantic, but it can be distinguished from this and the rest of the species of Glassella by differences in carapace margins and ridges, male pleon outline, and the shape of the GP.

Published

2021

22. emOvilyra/em, a new genus of leucosiid crab (Crustacea: Decapoda: Brachyura) from the West Pacific.

Author

Ng PKL

Subjects

Animals, Brachyura classification, Brachyura physiology

Abstract

The identities of two species of shallow water Southeast Asian and southern Chinese leucosiid crabs Philyra fuliginosa Targioni-Tozzetti, 1877, and P. olivacea Rathbun, 1909, are clarified; and shown to be synonyms. A new genus, Ovilyra, is established for P. fuliginosa, and it is easily distinguished from Philyra s. str. as well as allied genera by possessing an elongate carapace, a narrow and slender male pleon with somites 1 and 2 articulate, and a male first gonopod which has the distal quarter sharply bent with a well developed subdistal process.

Published

2021

23. The complete mitochondrial genome of the red-jointed brackish-water fiddler crab Minuca minax (LeConte 1855) (Brachyura: Ocypodidae): New family gene order, and purifying selection and phylogenetic informativeness of protein coding genes.

Author

Conrad I, Craft A, Thurman CL, and Baeza JA

Subjects

Animals, Brachyura classification, Evolution, Molecular, Open Reading Frames, RNA, Ribosomal genetics, Brachyura genetics, Genome, Mitochondrial, Phylogeny, Selection, Genetic

Abstract

Minuca minax is a semi-terrestrial crustacean that commonly lives in low salinity, riverine habitats along the shores of the eastern United States. This study reports, for the first time, the complete mitochondrial genome of M. minax. The AT-rich mitochondrial genome of M. minax is 15,937 bp in length and comprised of 13 protein-coding genes (PCGs), 2 ribosomal RNA genes, and 22 transfer RNA genes. A single 737 bp long intergenic space is assumed to be the D-loop. Most of the PCGs and tRNA genes are encoded in the L-strand. The gene order observed in the mitochondrial genome of M. minax is new although almost identical to that reported in confamiliar species. In all other confamiliar species to which M. minax is compared, the positions of the trnQ gene and the trnI gene are switched. K A /K S ratios calculated for all mitochondrial PCGs show values of <1, indicating that these PCGs are evolving under purifying selection. A maximum likelihood phylogenetic analysis (concatenated PCGs [n = 13], 15 species) supports the monophyly of the subfamilies Ocypodinae and Gelaminidae. Mitochondrial PCGs have enough phylogenetic information to reveal relationships supporting higher taxonomic levels within this family. The knowledge of a complete mitochondrial genome from the red-jointed brackish-water fiddler crab M. minax contributes to the better understanding of meta-population connectivity and the mechanisms involved in the adaptation of marine organisms to near-limnic conditions., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2021

24. The complete mitochondrial genome of the sand bubbler crab Scopimera globosa and its phylogenetic position.

Author

Kobayashi G, Itoh H, Fukuda H, and Kojima S

Subjects

Animals, Brachyura classification, Brachyura genetics, Genome, Mitochondrial, Phylogeny

Abstract

The mitochondrial genome has become commonly used for the molecular phylogenetic analysis of animals. Most phylogenetic studies on brachyurans using mitogenome sequences have indicated the paraphyly of superfamilies Grapsoidea and Ocypodoidea but taxon sampling remains limited. The phylogenetic position of Scopimera has been tested in several previous studies using nuclear and/or mitochondrial DNA sequences, but the phylogenetic relationship within the family remains to be resolved. We newly sequenced the complete mitochondrial genome of the sand bubbler crab Scopimera globosa (Ocypodoidea: Dotillidae). Scopimera globosa was clustered with Ilyoplax despite the morphological similarity between Scopimera and Dotilla. The mitochondrial gene order of S. globosa was unique, whereas that of other genera in the family was the same. These results suggest that phylogenetic analysis based on mitogenome sequences and gene order comparison would provide a more robust phylogeny of Dotillidae., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2021

25. Phylogenetic relationships of Grapsoidea and insights into the higher phylogeny of Brachyuran.

Author

Liu QN, Tang YY, Yang TT, Li YT, and Yu XM

Subjects

Animals, Brachyura genetics, Genome, Mitochondrial, Polymorphism, Genetic, Brachyura classification, Phylogeny

Abstract

Decapoda is one of the most diverse crustacean orders, and has become an important research subject. However, the phylogenetic relationships among the main lineages of Decapoda remain uncertain, especially in the order Brachyura. Herein, we sequenced the whole mitochondrial genome of V. litterata and constructed a phylogenetic tree to understand its phylogenetic relationships with other species. The results showed that the mitochondrial genome of V. litterata was generally similar to mitogenomes of Metazoa reported in the literature, with a size of 16,247 bp, 37 genes, and a control region. Both AT-skew and GC-skew were negative, indicating more abundant Cs and Ts than Gs and As. The gene arrangement of V. litterata is identical to those of Eriocheir hepuensis, Cyclograpsus granulosus, Hemigrapsus sanguineus, Helicana wuana, and Helice tientsinensis but differs from the pancrustacean ground pattern and typical arrangement of Brachyuran crabs. Phylogenetic reconstruction showed that V. litterata belongs to the Varunidae., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2021

26. Male reproductive strategies in two species of spider crabs, Leurocyclus tuberculosus and Libinia spinosa.

Author

González Pisani X and López Greco LS

Subjects

Animals, Brachyura anatomy & histology, Brachyura classification, Female, Male, Social Behavior, Species Specificity, Brachyura physiology, Sexual Behavior, Animal physiology

Abstract

Reproductive strategies vary according to season length, individual reproductive traits, and factors associated with the social context such as density and sex ratio of the individuals. The social context predicts the intensity of sexual selection due to its effect on mate choice and intra-sexual competition. Moreover, it exacerbates the costs derived from sexual conflict and allows for the existence of alternative reproductive tactics to counteract such costs. However, these mechanisms are still underexplored in many animal taxa. Majoidea "spider crabs" show a diversity of life history, and behavioral and morphological adaptations for reproduction, which have evolved as an outcome of competition to maximize reproductive success. We aimed to analyze in this study, male reproductive strategies through mating behavior under different social contexts, density of individuals, and males size differences in two species of "spider crabs", Leurocyclus tuberculosus and Libinia spinosa. The experiments were as follows: one female and one male per aquarium (Experiment 1); a female and three males of similar sizes per aquarium (Experiment 2); and a female and three males of distinct sizes per aquarium (Experiment 3). The experiments showed that mating behavior and duration of mate guarding differ between species and among different social contexts. The presence of males with similar or different sizes showed a relevant different behavior, the female copulated with more than one male when males were similar in size (E2), and copulated only with the largest male when males were different in size (E3). In mate guarding, the shape and the use of the chelipeds had an important role: the male of Leurocyclus tuberculosus grasped the female with the chelipeds and did not fight with other males, but the male of Libinia spinosa surrounded the female with the chelipeds and fought with other males. The longest duration of mate guarding was during precopulatory guarding. Precopulatory guarding was present in all the experiments and its duration did not present significant differences among the experiments. However, in both species, the experiments differ in the duration of postcopulatory guarding until spawning. Gonopod morphology revealed important differences between species and are probably associated with sperm competition. The experiments under distinct social contexts linked to the use and shape of the chelipeds and the morphology of the gonopods, could allow to understand the functional significance of the different reproductive strategies., (Copyright © 2020 Elsevier GmbH. All rights reserved.)

Published

2020

27. Gene rearrangements in the mitochondrial genome of Chiromantes eulimene (Brachyura: Sesarmidae) and phylogenetic implications for Brachyura.

Author

Zhang Y, Gong L, Lu X, Jiang L, Liu B, Liu L, Lü Z, Li P, and Zhang X

Subjects

Animals, Evolution, Molecular, Gene Order, Phylogeny, RNA, Ribosomal genetics, RNA, Transfer genetics, Brachyura classification, Brachyura genetics, Gene Rearrangement, Genome, Mitochondrial

Abstract

Complete mitochondrial genome (mitogenome) provides important information for better understanding of gene rearrangement, molecular evolution and phylogenetic analysis. Here we determined the complete mitogenome sequence of Chiromantes eulimene (Brachyura: Sesarmidae) for the first time. The total length is 15,894 bp and includes 13 protein-coding genes (PCGs), 22 transfer RNAs, two ribosomal RNAs, as well as a putative control region. The genome composition is highly A + T biased (75.5%), and exhibits a negative AT-skew (-0.017) and GC-skew (-0.206). All of the 13 PCGs are initiated by the start codon ATN, with an exception (GTG) in ND1. The typical stop codon (TAA or TAG) is detected in ten PCGs, whereas the remaining three PCGs (COI, COII and Cyt b) terminate by an incomplete T. The gene order in C. eulimene mitogenome was rearranged compared with that of the ancestor of Decapoda. The gene order of F-ND5-H changed to H-F-ND5. Like other sesarmid crabs, the I-Q-M gene cluster in the pancrustacean ground pattern became Q-I-M order in C. eulimene genome. Tandem duplication-random loss model and slipped-strand mispairing mechanism are determined as most likely to explain the observed gene rearrangements. Phylogenetic analysis places all Sesarmidae species into one group. Almost all families except Xanthidae, Gecarcinidae and Homolidae form a monophyletic clade and the polyphyly of Eriphioidea, Ocypodoidea and Grapsoidea is well supported. These results will help to better understand the gene rearrangements and evolutionary position of C. eulimene and lay a foundation for further phylogenetic studies of Brachyura., Competing Interests: Declaration of competing interest The authors declare that they have no conflicts of interest on the contents of this manuscript., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

28. Characterization of the complete mitochondrial genome of Helice latimera and its phylogenetic implications in Brachyura.

Author

Tang YY, Tang BP, Xin ZZ, Li YT, Zha XH, Zhang DZ, Sun Y, Liu QN, and Ma YF

Subjects

Animals, Brachyura classification, Mitochondrial Proteins genetics, Phylogeny, RNA, Transfer genetics, Brachyura genetics, Genome, Mitochondrial

Abstract

Mitochondrial genomes (mitogenomes) help advance our learning of molecular evolution and phylogenetic relationships. The mitogenome of H. latimera is 16,246 bp in length, which typically contains 37 animal mitogenome genes consisting of 13 protein-coding genes (PCGs), two rRNA genes, and 22 tRNA genes, as well as a control region. The AT content of H. latimera is 69.1%. The A + T skew of the mitogenome of H. latimera was slightly negative (-0.017). The size of Thirteen PCGs is from 162 bp to 1731 bp. Twenty-two tRNA genes ranged from 62 to 73 bp and were highly A + T biased. All tRNA genes owed a typical cloverleaf structure, not including the trnS1 gene lacking a dihydroxyuridine arm. One PCG, two rRNAs, and 12 of the tRNAs were rearranged compared to the pancrustacean gene order. Phylogenetic analysis revealed the locationt of H. latimera among the Varunidae family., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

29. Eocarcinus praecursor Withers, 1932 (Malacostraca, Decapoda, Meiura) is a stem group brachyuran.

Author

Scholtz G

Subjects

Animals, Brachyura anatomy & histology, Extremities anatomy & histology, Biological Evolution, Brachyura classification, Fossils anatomy & histology, Phylogeny

Abstract

Beginning with the description by Withers in 1932, Eocarcinus praecursor from the Jurassic has long been considered the oldest representative of the Brachyura. In 2010 Feldmann and Schweitzer re-investigated the specimens of E. praecursor and expressed doubts about the brachyuran nature of this species. Among other characters, the suspected existence of small chelae in the 2nd or 3rd pereopods led them to the conclusion that E. praecursor must be removed from the Brachyura and rather be seen as a representative of the Anomala. However, Anomala also do not possess chelae on the 2nd and 3rd pereopods. This contradiction and other aspects initiated a new investigation of E. praecursor. It can be shown that neither the 2nd nor the 3rd pereopods of E. praecursor are chelate. Furthermore, there are no other derived characters shared with anomalans. By contrast, there are a number of apomorphies shared with Brachyura such as the shape and articulation of the large chelae and the attachment points of the last two pereopods. However, not all apomorphies of the crown group are present yet. Thus, E. praecursor is a stem group representative, which allows statements about individual steps in the evolution of the set of characters of the crown group Brachyura., (Copyright © 2020 The Author. Published by Elsevier Ltd.. All rights reserved.)

Published

2020

30. Population genetic diversity of mud crab (Scylla paramamosain) from southeast coastal regions of China based on mitochondrial COI gene sequence.

Author

Wang W, Ma C, Chen W, Jin Z, Zhao M, Zhang F, Liu Z, and Ma L

Subjects

Animals, Brachyura classification, China, Electron Transport Complex IV genetics, Genes, Mitochondrial, Genetic Variation, Haplotypes, Phylogeny, Sequence Analysis, DNA, Brachyura genetics

Abstract

Mud crab (Scylla paramamosain) is a native and economically important species in East Asia. In order to provide a comprehensive genetic background for the resource protection and management in this species, the genetic diversity and population structure of S. paramamosain were analyzed based on mitochondrial cytochrome oxidase subunit I (COI) gene sequence. Totally, 599 individuals were sampled from 20 populations, including 18 wild and two cultured populations from five provinces along southeastern coast of China. After the sequencing of a 638 bp fragment of COI gene, 84 variable sites were found and no insertion or deletion was detected. The H2 (haplotype 2) was the dominant hapolotye shared by 301 individuals (50.3% of all individuals) and existed in all localities. In addition, a high percent of unique haplotypes (53 of 93 haplotyoes) was found. The average nucleotide diversity (π) of all populations was 0.00194, ranging from 0.00010 (NHF1) to 0.00305 (SHCM). The haplotype diversity (h) ranged from 0.067 (NHF1) to 0.876 (CM) with an average 0.738. All of the populations showed high h (>0.5) except NHF1. Genetic distance ranged from 0.00063 to 0.00337 between populations and from 0.00010 to 0.00374 within populations. The molecular variance analysis (AMOVA) showed that the total genetic variation mainly occurred within populations (99.68%) and only 0.32% was contributed by among populations variation. No significant genetic differentiation was observed among all wild populations except that between BA and SHCM (Fst = 0.0.05707, P < 0.05), indicating a low level of genetic differentiation among localities. It is worth to note that two progeny population (HNF1 and NHF1) showed significantly different genetic variation, which suggested that a large quantity of parents could help to improve the genetic diversity of progeny populations., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020. Published by Elsevier B.V.)

Published

2020

31. Characterizing coral reef biodiversity: genetic species delimitation in brachyuran crabs of Palmyra Atoll, Central Pacific.

Author

Servis JA, Reid BN, Timmers MA, Stergioula V, and Naro-Maciel E

Subjects

Animals, Biodiversity, Brachyura genetics, Coral Reefs, Electron Transport Complex IV genetics, Pacific Ocean, Phylogeny, RNA, Ribosomal, 16S genetics, Species Specificity, Brachyura classification, DNA Barcoding, Taxonomic methods, Sequence Analysis, DNA methods

Abstract

Coral reefs are highly threatened ecosystems, yet there are numerous challenges in conducting inventories of their vanishing biodiversity, partly because many taxa remain difficult to detect and describe. Genetic species delimitation methods provide a standardized means for taxonomic classification including of cryptic, rare, or elusive groups, but results can vary by analytical method and genetic marker. In this study, a combination of morphological and genetic identification methods was used to estimate species richness and identify taxonomic units in true crabs (Infraorder Brachyura; n = 200) from coral reefs of Palmyra Atoll, Central Pacific. Genetic identification was based on matches between mitochondrial 16S ribosomal RNA (16S rRNA) and/or cytochrome c oxidase subunit I (COI) sequences to GenBank data, while morphological work relied on the taxonomic literature. Broad agreement in the number of candidate species delimited by genetic distance thresholds and tree-based approaches was found, although the multi-rate Poisson tree process (mPTP) was less appropriate for this dataset. The COI sequence data identified 30-32 provisional species and the 16S data revealed 34-35. The occurrence of 10 families, 20 genera, and 19 species of brachyurans at Palmyra was corroborated by at least two methods. Diversity levels within Chlorodiella laevissima indicated possible undescribed or cryptic species in currently lumped taxa. These results illustrate the efficacy of DNA sequences in identifying organisms and detecting cryptic variation, and underscore the importance of using appropriate genetic markers and multiple species delimitation analyses, with applications for future species descriptions.

Published

2020

32. The complete mitochondrial genome of Calappa bilineata: The first representative from the family Calappidae and its phylogenetic position within Brachyura.

Author

Lu X, Gong L, Zhang Y, Chen J, Liu L, Jiang L, Lü Z, Liu B, Tong G, and Wei X

Subjects

AT Rich Sequence, Animals, Arthropod Proteins genetics, Brachyura classification, Codon Usage, DNA, Mitochondrial chemistry, Mitochondrial Proteins genetics, Phylogeny, RNA, Ribosomal genetics, RNA, Transfer genetics, Brachyura genetics, Genome, Mitochondrial

Abstract

In this study, we determined the complete mitogenome sequence of Calappa bilineata, which is the first mitogenome of Calappidae up to now. The total length is 15,606 bp and includes 13 protein-coding genes, 22 transfer RNAs, two ribosomal RNAs and one control region. The genome composition is highly A + T biased (68.7%), and exhibits a negative AT-skew (-0.010) and GC-skew (-0.267). As with other invertebrate mitogenomes, the PCGs start with the standard ATN and stop with the standard TAN codons or incomplete T. Phylogenetic analysis showed that C. bilineata was most closely related to Matuta planipes (Matutidae), and these two species formed a sister clade, constituting a Calappoidea group and forming a sister clade with part of Eriphioidea. The existence of the polyphyletic families raised doubts over the traditional classification system. These results will help to better understand the features of the C. bilineata mitogenome and lay foundation for further evolutionary relationships within Brachyura., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

33. Evolution of digestive enzyme genes associated with dietary diversity of crabs.

Author

Wang Z, Tang D, Guo H, Shen C, Wu L, and Luo Y

Subjects

Adaptation, Physiological genetics, Animals, Brachyura classification, Brachyura enzymology, Carnivory classification, Carnivory physiology, Diet, Herbivory classification, Herbivory genetics, Brachyura genetics, Evolution, Molecular, Gastrointestinal Tract enzymology, Selection, Genetic genetics

Abstract

Crabs feed on a wide range of items and display diverse feeding strategies. The primary objective of this study was to investigate 10 digestive enzyme genes in representative crabs to provide insights into the genetic basis of feeding habits among crab functional groups. Crabs were classified into three groups based on their feeding habits: herbivores (HV), omnivores (OV), and carnivores (CV). To test whether crabs' feeding adaptations matched adaptive evolution of digestive enzyme genes, we examined the 10 digestive enzyme genes of 12 crab species based on hepatopancreas transcriptome data. Each of the digestive enzyme genes was compared to orthologous sequences using both nucleotide- (i.e., PAML and Datamonkey) and protein-level (i.e., TreeSAAP) approaches. Positive selection genes were detected in HV crabs (AMYA, APN, and MGAM) and CV crabs (APN, CPB, PNLIP, RISC, TRY, and XPD). Additionally, a series of positive selection sites were localized in important functional regions of these digestive enzyme genes. This is the first study to characterize the molecular basis of crabs' digestive enzyme genes based on functional feeding group. Our data suggest that HV crabs have evolved an enhanced digestion capacity for carbohydrates, and CV crabs have acquired digestion capacity for proteins and lipids.

Published

2020

34. The distribution of the freshwater crab Fredius reflexifrons (Ortmann, 1897) (Brachyura, Pseudothelphusidae) in an Environmental Protection Area of the Planalto da Ibiapaba, Northeastern Brazil.

Author

Santos LCD, Nascimento WMD, Matos HS, Pinheiro AP, and Silva JRF

Subjects

Animals, Brazil, Wetlands, Animal Distribution, Brachyura classification, Conservation of Natural Resources, Fresh Water

Abstract

Freshwater crabs are important components of aquatic ecosystems; however, their distributions are restricted because of characteristics of their life history, which hinder conservation strategies. Fredius reflexifrons is a widely distributed freshwater crab of the Amazon basin with relictual occurrences in small wetlands on the Planalto da Ibiapaba in Northeastern Brazil. Habitat degradation, destruction of forest patches, channeling of water bodies, and the use of land for legume cropping can seriously impact the species by leading to the extinction of its relic populations, which have limited distributions in the Área de Proteção Ambiental (APA; Environmental Protection Area) Bica do Ipu of the Planalto da Ibiapaba. The objectives of this study were to assess the distribution of F. reflexifrons in APA Bica do Ipu, identify the main impacts from anthropic activities, suggest potential actions to mitigate these impacts, besides providing recommendations for the expansion of the APA. Fredius reflexifrons was recorded in eleven sites in the Planalto da Ibiapaba, of which nine are new records and five are not located within the APA. These findings evidence the need of expanding the APA to encompass the newly known distribution of F. reflexifrons in order to assure its protection.

Published

2020

35. Phylogenetic implications of mitogenome rearrangements in East Asian potamiscine freshwater crabs (Brachyura: Potamidae).

Author

Zhang Z, Xing Y, Cheng J, Pan D, Lv L, Cumberlidge N, and Sun H

Subjects

Animals, Evolution, Molecular, Asia, Eastern, Fresh Water, Gene Duplication, Gene Order, Phylogeny, Brachyura classification, Brachyura genetics, Genome, Mitochondrial

Abstract

We present here a combined mitogenome gene order dataset totalling 62% of the known genera of East Asian potamiscine freshwater crabs that includes first-time mitogenome data for 14 species and gene order data from 37 other species of potamiscines. A surprisingly high number of mitogenome gene order rearrangements were found in the taxa studied (comprising nine different rearrangements and seven major patterns, one of which has two sub-arrangements). Our phylogenetic reconstructions indicate that the mitogenome gene order rearrangements are associated with the evolutionary history of potamiscine lineages. We also used a new Event-based Maximum Parsimony method to reconstruct ancestral gene orders, which takes into consideration gene duplication, pseudogeneticization, and tandem duplication random loss. Furthermore, shared mitogenome gene order patterns were used to inform the taxonomic placement of Sinopotamon parvum, and the cryptic diversity in Potamiscus. The remarkably frequent mitogenome rearrangements in potamiscine freshwater crabs have great potential to contribute to our understanding of the evolutionary history of these highly diverse decapods in East Asia., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

36. A class B scavenger receptor mediates antimicrobial peptide secretion and phagocytosis in Chinese mitten crab (Eriocheir sinensis).

Author

Tang M, Li X, Yang L, Wang Q, and Li W

Subjects

Amino Acid Sequence, Animals, Arthropod Proteins chemistry, Arthropod Proteins genetics, Base Sequence, Brachyura classification, Brachyura genetics, Brachyura microbiology, Gene Expression Regulation immunology, Hemocytes immunology, Hemocytes microbiology, Models, Molecular, Pathogen-Associated Molecular Pattern Molecules metabolism, Phylogeny, Protein Binding, Scavenger Receptors, Class B chemistry, Scavenger Receptors, Class B genetics, Sequence Alignment, Staphylococcus aureus physiology, Tissue Distribution, Vibrio parahaemolyticus physiology, Antimicrobial Cationic Peptides metabolism, Arthropod Proteins metabolism, Brachyura immunology, Phagocytosis, Scavenger Receptors, Class B metabolism

Abstract

Scavenger receptors (SRs) are pattern recognition receptors (PRRs) vital for innate immunity. As well as their importance in immune recognition, microbe phagocytosis, and the clearance of modified endogenous molecules, they also activate downstream immune responses as co-receptors. In the current study, we identified a class B scavenger receptor in Eriocheir sinensis (EsSR-B2). The full-length gene is 2,517 bp and encodes a 517 amino acid polypeptide. EsSR-B2 is expressed widely in all tested tissues and is induced by microbial stimulation. Recombinant EsSR-B2 binds to bacteria and pathogen-associated molecular patterns in vitro. Upon knockdown of EsSR-B2 and bacterial challenge with Staphylococcus aureus or Vibrio parahaemolyticus, phagocytosis rates in hemocytes are decreased. Moreover, the expression of several antimicrobial peptides (AMPs) in response to distinct microorganism stimulation is decreased following EsSR-B2 silencing. Thus, EsSR-B2 is a PRR that protects E. sinensis against invading pathogens by promoting phagocytosis and enhancing AMP expression., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

37. Characterization of the complete mitochondrial genome of Uca lacteus and comparison with other Brachyuran crabs.

Author

Wang Z, Shi X, Guo H, Tang D, Bai Y, and Wang Z

Subjects

Animals, Base Composition, Brachyura classification, Codon Usage, DNA, Mitochondrial chemistry, Gene Order, Genes, rRNA, Phylogeny, RNA, Transfer genetics, Brachyura genetics, Genome, Mitochondrial

Abstract

Brachyuran crabs comprise the most species-rich clade among the crustacean order Decapoda and are divided into several major superfamilies. However, the monophyly of the superfamilies Ocypodoidea and Grapsoidea in their current compositions within the Brachyura remains inconclusive. In this study, the complete mitochondrial genome (mitogenome) of Uca lacteus (Ocypodoidea, Ocypodidae) was sequenced, annotated, and compared with those of other Brachyuran crabs. The circular mitogenome of U. lacteus is 15,661 base pairs long and contains the entire set of 37 genes and an A + T-rich region typically observed in decapod mitogenomes. Secondary structures of several tRNAs are partly missing (trnS1), and the number of bases is significantly decreased (trnD and trnF), as discovered in many other metazoans. We compared the gene order of U. lacteus with other species of Ocypodidae and found that they are consistent. The gene rearrangement of Ocypodidae is also identical to that of the ancestor of Brachyura. However, the order of the trnH gene varies from the rearrangement of ancestral Decapoda. Accordingly, we hypothesized that this rearrangement of trnH underwent a translocation during the evolution from Decapoda to Brachyura. The phylogenetic relationship of the 81 Brachyura species and one outgroup was recovered based on 13 protein-coding genes. This analysis confirmed that U. lacteus belongs to the family Ocypodidae and established a paraphyletic relationship between Ocypodoidea and Grapsoidea., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

38. Comparative mitochondrial genomic analysis of Macrophthalmus pacificus and insights into the phylogeny of the Ocypodoidea & Grapsoidea.

Author

Wang Q, Tang D, Guo H, Wang J, Xu X, and Wang Z

Subjects

Animals, Base Composition, Brachyura classification, Codon Usage, DNA, Mitochondrial chemistry, Gene Order, Genes, rRNA, Genomics, Mitochondrial Proteins genetics, Phylogeny, RNA, Transfer chemistry, RNA, Transfer genetics, Brachyura genetics, Genome, Mitochondrial

Abstract

Grapsoidea and Ocypodoidea, two of the most abundant and economically important groups in Brachyura, are of great commercial value to fisheries and aquaculture. However, the taxonomy of Ocypodoidea and Grapsoidea has long been highly disputed. Previous studies have investigated this problem through phylogenetic analysis based on limited taxonomic sampling, with different reports proposing either monophyly or paraphyly, but no definitive conclusion has been reached. In this study, the complete mitogenome of Macrophthalmus pacificus (Ocypodoidea, Macrophthalmidae) is reported on and the relationship between Ocypodoidea and Grapsoidea is further investigated. Sequencing the M. pacificus mitogenome, which is a closed circular molecule containing a typical 37 genes, preliminarily determined the ancestral gene order of Macrophthalmidae, which is consistent with previous studies. Comparative analyses of gene order among Ocypodoidea and Grapsoidea revealed that Varunidae (Grapsoidea) and Macrophthalmidae (Ocypodoidea) have the same rearrangement, which confirms previous research. Larger data analysis revealed that these two families (Varunidae and Macrophthalmidae) cluster into a monophyletic clade as sister groups. Rearrangement and phylogeny lines of evidence is concluded that Varunidae and Macrophthalmidae may be of common origin. Furthermore, the remaining Ocypodoidea and Grapsoidea families mix paraphyletically in the phylogenetic tree. Therefore, both gene rearrangement and phylogenetic analysis support the paraphyly of Ocypodoidea and Grapsoidea, which reinforces this view. These findings provide important information regarding Brachyura's phylogenetic relationships, which demonstrates the advantage of mitogenome sequence data in phylogenetic studies., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

39. Identification of a transforming growth factor-β type I receptor transcript in Eriocheir sinensis and its molting-related expression in muscle tissues.

Author

Tian Z, Peng H, Deng W, and Jiao C

Subjects

Amino Acid Sequence, Animals, Base Sequence, Brachyura classification, Brachyura metabolism, Cloning, Molecular, Female, Gene Expression Regulation, Developmental, Male, Models, Molecular, Muscle, Skeletal growth & development, Phylogeny, Protein Structure, Secondary, Protein Structure, Tertiary, Receptor, Transforming Growth Factor-beta Type I chemistry, Receptor, Transforming Growth Factor-beta Type I metabolism, Signal Transduction genetics, Transforming Growth Factor beta1 metabolism, Brachyura genetics, Molting genetics, Muscle, Skeletal metabolism, Receptor, Transforming Growth Factor-beta Type I genetics

Abstract

The transforming growth factor-β (TGF-β) signaling pathway is conserved across animals, and knowledge of its roles during the molt cycle in crustaceans is presently very limited. This study investigates the roles of the TGF-β receptor in molting-related muscle growth in Eriocheir sinensis. Using the RT-PCR and RACE techniques, we obtained a 1722 bp cDNA sequence encoding a transforming growth factor-β type I receptor in Eriocheir sinensis, designated EsTGFBRI, which contains a 124 bp 5'-untranslated region, a 20 bp partial 3'-untranslated region and a 1578 bp open reading frame encoding 525 amino acids. The deduced EsTGFBRI contains an N-terminal 24 amino acid signal peptide, an activin type I and II receptor domain, a transmembrane helix region, a glycine-serine-rich motif, and a conserved serine/threonine kinase catalytic domain including an activation loop. The qRT-PCR results showed that EsTGFBRI gene was highly expressed in the intermolt testis and ovary in mature crabs. In juvenile crabs, the mRNA levels of EsTGFBRI in claw and abdominal muscles in the later premolt D 3-4 stage were significantly higher than those in the intermolt C and postmolt A-B stages. There was no significant change in EsTGFBRI mRNA levels in walking leg muscles during the molt cycle. The results suggest that EsTGFBRI is probably play roles in molting-related muscle growth in E. sinensis. This study provides a necessary basis for elucidating the functions of TGF-β-like signaling mediated by TGFBRI in molting-related muscle growth in crustaceans.

Published

2020

40. Marine species formation along the rise of Central America: The anomuran crab Megalobrachium.

Author

Hiller A and Lessios HA

Subjects

Animals, Bayes Theorem, Central America, Evolution, Molecular, Likelihood Functions, Phylogeny, Phylogeography, Brachyura classification, Brachyura genetics

Abstract

The evolution of marine neotropical shallow water species is expected to have been greatly affected by physical events related to the emergence of the Central American Isthmus. The anomuran crab Megalobrachium, a strictly neotropical porcellanid genus, consists of four species in the West Atlantic (WA) and nine in the East Pacific (EP). Dispersal is limited to a relatively short planktonic phase, which lasts approximately two weeks. We obtained DNA sequences of three mitochondrial and two nuclear genes of all but one species of Megalobrachium to construct a time-calibrated phylogeny of the genus and its historical phylogeography, based on the reconstruction of ancestral areas. The topology of the phylogenetic trees of Megalobrachium produced by Bayesian Inference (BI) and Maximum Likelihood (ML) were virtually congruent. The genus is monophyletic with respect to other porcellanids. Ancestral area reconstruction indicates that it arose in the eastern Pacific 18 million years ago and diversified into at least 13 species that are currently formally recognized and three additional species indicated by our data. Most morphological variation appears to have followed phylogenetic differentiation, though some cryptic speciation has also occurred. Four geminate clades in this genus implicate the gradual emergence of the Central American Isthmus in this diversification, but events preceding the final separation of the oceans as well as within-ocean events after the cessation of water connections were also important., (© 2019 John Wiley & Sons Ltd.)

Published

2020

41. The oldest freshwater crabs: claws on dinosaur bones.

Author

Robin N, van Bakel BWM, Hyžný M, Cincotta A, Garcia G, Charbonnier S, Godefroit P, and Valentin X

Subjects

Animals, Biological Evolution, Brachyura classification, Dinosaurs classification, Fresh Water, Models, Biological, Paleontology methods, Species Specificity, Bone and Bones anatomy & histology, Brachyura anatomy & histology, Dinosaurs anatomy & histology, Fossils, Hoof and Claw anatomy & histology

Abstract

With approximately 1,500 extant species, freshwater crabs (Decapoda: Brachyura) are among the most diverse decapod crustaceans. Nevertheless, their fossil record is extremely limited: only Potamidae, Potamonautidae and Trichodactylidae are reported up to the Eocene of the Neotropics so far. This work documents unusually large decapod claws from the Upper Cretaceous (Campanian) continental deposits of Velaux and vicinity (southern France), in close association with large vertebrate remains. In addition to (1) the systematic assignment of these claws, the study addresses (2) the salinity trends in the deposit environment from its faunal assemblage and the elementary chemical patterns of fossils, and (3) the likely scenario for their auto/allochthony in the Velaux fluvial system. These claws belong to a new taxon, Dinocarcinus velauciensis n. gen. n. sp., referred to as Portunoidea sensu lato, a group of "true" crabs nowadays linked to marine systems. However, the faunal assemblage, the claw taphonomy and the carbonates Y/Ho signatures support their ancient freshwater/terrestrial ecology, making them the oldest reported continental brachyurans and extending the presence of crabs in freshwater environments by 40 Ma. Either as primary or as secondary freshwater crabs, the occurrence of these portunoids in Velaux is an evidence for the independent colonizations of continental environments by multiple brachyuran clades over time, as early as the Campanian.

Published

2019

42. Phylogeographic studies on two shore crab species from East Asia: similar but different stories.

Author

Shin J, Jung J, Kim W, and Jung J

Subjects

Animals, DNA, Mitochondrial genetics, Electron Transport Complex I genetics, Asia, Eastern, Genetic Variation, Japan, Phylogeny, Republic of Korea, Taiwan, Brachyura classification, Brachyura genetics, Genetic Structures, Phylogeography

Abstract

Background: The genetic structure of marine organisms in the East Asian region has long been a subject of interest. Two grapsid crab species, Hemigrapsus penicillatus (De Haan, 1835) and Hemigrapsus sanguineus (De Haan, 1835), are commonly found in the rocky intertidal zones around this region. They are known to spread via larval migration, which makes them an appropriate model species for observing the genetic structure of East Asian intertidal invertebrate animals., Objective: We investigated the genetic structure of the East Asian crabs H. penicillatus and H. sanguineus., Methods: We collected specimens of H. penicillatus from seven locations (42 individuals) and of H. sanguineus from ten locations (58 individuals) in Korea, Japan, and Taiwan. We investigated and compared the genetic diversity and structure of populations of these species using mitochondrial cytochrome oxidase subunit I (COI) sequences., Results: Our results show that both species are genetically structured between South Korea and Japan, and that the Taiwan population forms a cluster that is separate from those of the other countries. Populations of H. penicillatus contain less genetic diversity than those of H. sanguineus., Conclusion: These results suggest that there is a genetic structure between the two species at present in East Asia.

Published

2019

43. Guaiacol oxidation activity of herbivorous land crabs, Chiromantes haematocheir and Chiromantes dehaani.

Author

Miyake K, Ura K, Chida S, Ueda Y, Baba Y, Kusube T, and Yanai S

Subjects

Animals, Brachyura classification, Feeding Behavior physiology, Female, Japan, Oxidation-Reduction, Brachyura metabolism, Guaiacol metabolism, Herbivory physiology

Abstract

The land crabs, Chiromantes haematocheir (Akate-gani) and Chiromantes dehaani (Kurobenkei-gani) inhabit seaside forests in Japan. The crabs mainly consume plant material and its detritus. Therefore, they are expected to possess the ability to degrade the major components of biomass, cellulose and lignin in order to digest plant materials. In this study, we analyzed biomass-degrading activities of the land crabs, especially guaiacol oxidation activity, which seems to be related to lignin degradation. Cellulase activity was detected from almost all gut samples including the stomach, midgut gland and intestine of all dissected crabs. Conversely, high guaiacol oxidation activity was detected in the midgut gland of all C. dehaani and several female C. haematocheir crabs. This is consistent with a previous study showing that female crabs were more herbivorous than male crabs were and observation that C. dehaani crabs are more herbivorous than C. haematocheir. Guaiacol oxidation activity might play an important role in the herbivorous behavior of land crabs., (Copyright © 2019 The Society for Biotechnology, Japan. Published by Elsevier B.V. All rights reserved.)

Published

2019

44. The complete mitochondrial genome of Parasesarma pictum (Brachyura: Grapsoidea: Sesarmidae) and comparison with other Brachyuran crabs.

Author

Wang Z, Shi X, Tao Y, Wu Q, Bai Y, Guo H, and Tang D

Subjects

Animals, Base Composition, Brachyura classification, Evolution, Molecular, Open Reading Frames, RNA, Ribosomal genetics, RNA, Transfer genetics, Brachyura genetics, Genome, Mitochondrial, Phylogeny

Abstract

Mitochondrial DNA (mtDNA) is an extrachromosomal genome which can provide important information for evolution and phylogenetic analysis. In this study, we assembled a complete mitogenome of a crab Parasesarma pictum (Brachyura: Grapsoidea: Sesarmidae) from next generation sequencing reads at the first time. P. pictum is a mudflat crab, belonging to the Sesarmidae family (subfamily Sesarminae), which is perched on East Asia. The 15,716 bp mitogenome covers 13 protein-coding genes (PCGs), 22 transfer RNA genes (tRNAs), 2 ribosomal RNA genes (rRNAs), and one control region (CR). The control region spanns 420 bp. The genome composition was highly A+T biased 75.60% and showed negative AT-skew (-0.03) and negative GC-skew (-0.47). Compared with the ancestor of Brachyura, the gene order of Sesarmidae has several differences and the gene order of P. pictum is typical for mitogenomes of Sesarmidae. Phylogenetic tree based on nucleotide sequences of mitochondrial 13 PCGs using BI and ML determined that P. pictum has a sister group relationship with Parasesarma tripectinis and belongs to Sesarmidae., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

45. Two reads to rule them all: Nanopore long read-guided assembly of the iconic Christmas Island red crab, Gecarcoidea natalis (Pocock, 1888), mitochondrial genome and the challenges of AT-rich mitogenomes.

Author

Gan HM, Linton SM, and Austin CM

Subjects

Animals, Australia, Brachyura classification, Indian Ocean Islands, Nanopores, Phylogeny, Reproducibility of Results, Sequence Analysis, DNA, Brachyura genetics, Genome, Mitochondrial genetics

Abstract

Despite recent advances in sequencing technology, a complete mitogenome assembly is still unavailable for the gecarcinid land crabs that include the iconic Christmas Island red crab (Gecarcoidea natalis) which is known for its high population density, annual mass breeding migration and ecological significance in maintaining rainforest structure. Using sequences generated from Nanopore and Illumina platforms, we assembled the complete mitogenome for G. natalis, the first for the genus and only second for the family Gecarcinidae. Nine Nanopore long reads representing 0.15% of the sequencing output from an overnight MinION Nanopore run were aligned to the mitogenome. Two of them were >10 kb and combined are sufficient to span the entire G. natalis mitogenome. The use of Illumina genome skimming data only resulted in a fragmented assembly that can be attributed to low to zero sequencing coverage in multiple high AT-regions including the mitochondrial protein-coding genes (NAD4 and NAD5), 16S ribosomal rRNA and non-coding control region. Supplementing the mitogenome assembly with previously acquired transcriptome dataset containing high abundance of mitochondrial transcripts improved mitogenome sequence coverage and assembly reliability. We then inferred the phylogeny of the Eubrachyura using Maximum Likelihood and Bayesian approaches, confirming the phylogenetic placement of G. natalis within the family Gecarcinidae based on whole mitogenome alignment. Given the substantial impact of AT-content on mitogenome assembly and the value of complete mitogenomes in phylogenetic and comparative studies, we recommend that future mitogenome sequencing projects consider generating a modest amount of Nanopore long reads to facilitate the closing of problematic and fragmented mitogenome assemblies., (Copyright © 2019. Published by Elsevier B.V.)

Published

2019

46. Phylogenomic analyses of brachyuran crabs support early divergence of primary freshwater crabs.

Author

Ma KY, Qin J, Lin CW, Chan TY, Ng PKL, Chu KH, and Tsang LM

Subjects

Animals, Likelihood Functions, Transcriptome genetics, Brachyura classification, Brachyura genetics, Fresh Water, Genetic Variation, Phylogeny

Abstract

Recent fossil calibrated molecular phylogenies have revealed that the Brachyura underwent rapid radiation during the Cretaceous and Early Tertiary, resulting in many early diverging lineages separated by short internodes that remain difficult to resolve. Here we present the first phylogenomic analyses of Brachyura using transcriptome data from 30 brachyuran species and 22 families. Analyses were carried out on a dataset containing 372 putative homologous loci (246,590 bps) and included data from 21 newly generated transcriptomes. With minor exceptions, all phylogenetic analyses recovered a congruent, highly resolved and well supported brachyuran phylogeny. Consistent with previous work, this phylogeny suggests that primary freshwater crabs diverged early in brachyuran evolution, falling sister to Thoracotremata, thus supporting recent proposal for establishment of subsection Potamoida for primary freshwater crabs. The interfamilial relationships among heterotremes were well resolved in our analyses but those within Thoracotremata remained problematic. Phylogenomic analyses clearly provide a powerful means for resolving brachyuran relationships, but future studies would benefit greatly from increased taxon sampling of transcriptome data., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

47. Phylomitogenomics reconfirm the phylogenetic position of the genus Metaplax inferred from the two grapsid crabs (Decapoda: Brachyura: Grapsoidea).

Author

Chen J, Xing Y, Yao W, Xu X, Zhang C, Zhang Z, and Liu Q

Subjects

Animals, Chromosome Mapping, DNA, Mitochondrial genetics, Gene Rearrangement, High-Throughput Nucleotide Sequencing, Phylogeny, Sequence Analysis, DNA, Brachyura classification, Brachyura genetics, Genome, Mitochondrial

Abstract

Two new complete mitogenomes of the grapsids, Metaplax longipes Stimpson, 1858 and Nanosesarma minutum (De Man, 1887) were sequenced using next-generation sequencing (NGS). By analyzing a combination of 75 Brachyura taxa, our phylomitogenomic inferences suggested that Metaplax crab seperated earlier from the sesarmid crabs and closely related to the varunids with respect to Nanosesarma crab. It reconfirmed that the Metaplax should be removed from the Sesarmidae and assinged to the Varunidae. Additional mitogenomic comparisons including gene rearrangement and genomic organization were conducted among the 33 taxa of Grapsoidea and Ocypodoidea, and a shared rearrangement pattern between Metaplax longipes and the varunids were recovered, which also strongly supported the inference for the phylogenetic position of the Metaplax., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

48. Cloning and expression of a transcription factor activator protein-1 member identified from the swimming crab Portunus trituberculatus.

Author

Wang H, Shi C, Kong M, Mu C, Wei H, and Wang C

Subjects

Animals, Cloning, Molecular, Osmoregulation, Phylogeny, RNA, Messenger genetics, Transcriptome, Brachyura classification, Brachyura genetics, Transcription Factor AP-1 genetics

Abstract

Transcription activator proteins are regulatory proteins that bind to the promoter regions of target genes. Transcription activator protein-1 (AP-1) regulates numerous genes related to the immune system, apoptosis, and proliferation. In this study, the full-length cDNA of AP-1 from Portunus trituberculatus (PtAP-1) was identified by expressed sequence tag analysis and cDNA-end rapid amplification. The gene is 1183 bp and encodes a 256-amino acid protein with a predicted molecular mass and isoelectric point of 28.96 kDa and 8.90, respectively. PtAP-1 showed the highest expression level in the gonad tissue and the lowest expression level in blood, hemocyte, muscle, hepatopancreas, and gill, during the first 6 h of low-salinity stimulation (10%). Additionally, we observed steady decreases in PtAP-1 mRNA expression in the gill, but at 12 h, expression was initially upregulated, followed by a significant decrease until restoration to baseline levels at 48 h. Additionally, Vibrio alginolyticus challenge resulted in significant upregulation of PtAP-1 expression in the first 6 h, which was maintained at high levels for 48 h. From 48 to 72 h, we observed decreases in PtAP-1 levels, although they remained significantly higher than those detected at baseline. These results suggested that PtAP-1 is involved in the immune response and osmoregulation of crustaceans.

Published

2018

49. Legs of male fiddler crabs evolved to compensate for claw exaggeration and enhance claw functionality during waving displays.

Author

Bywater CL, Wilson RS, Monro K, and White CR

Subjects

Animals, Brachyura classification, Brachyura physiology, Courtship, Male, Mating Preference, Animal, Organ Size, Phylogeny, Sex Characteristics, Biological Evolution, Brachyura anatomy & histology, Extremities anatomy & histology

Abstract

Many exaggerated morphological traits evolve under sexual selection. However, the optimal level of exaggeration is dictated by a trade-off between natural and sexual selection, representing a balance between its benefits and associated costs. Male fiddler crabs wave an enlarged major claw during behavioural displays that eliminates the need for direct combat, and determines courtship outcomes. The outcomes of these displays often depend on claw size, exposing males to selection for larger claws to improve mating and combat success. Applying phylogenetic comparative methods to 27 fiddler crab species, we examined the evolution of major claw morphologies, leg morphologies, and waving displays to determine whether these traits coevolved to optimise functioning of the exaggerated claw, or to mitigate potential metabolic or locomotor costs. We found legs to be sexually dimorphic, with males having longer legs than females. Legs were also longer in species that waved laterally rather than vertically, in species with larger major claws, and in species whose major claws were relatively elongate. These results suggest that leg morphology has coevolved with claw enlargement to enhance functionality of the major claw during waving displays, in addition to compensating for any negative effects of claw size., (© 2018 The Author(s). Evolution © 2018 The Society for the Study of Evolution.)

Published

2018

50. Characterization of four new mitogenomes from Ocypodoidea & Grapsoidea, and phylomitogenomic insights into thoracotreme evolution.

Author

Chen J, Xing Y, Yao W, Zhang C, Zhang Z, Jiang G, and Ding Z

Subjects

Animals, Base Sequence, Brachyura classification, Cloning, Molecular, Genes, Mitochondrial, Phylogeny, Brachyura genetics, Evolution, Molecular, Genome, Mitochondrial

Abstract

Four new complete mitochondrial genomes (mitogenomes) from the two superfamilies Ocypodoidea and Grapsoidea were sequenced, which represented Uca (Gelasimus) borealis (Ocypodidae: Ucinae), Dotilla wichmani (Dotillidae), Metopograpsus quadridentatus (Grapsidae: Grapsinae), and Gaetice depressus (Varunidae: Gaeticinae). All of the mitogenomes shared the complete set of 37 mitochondrial genes. Mitogenome lengths were 15,659, 15,600, 15,517, and 16,288 bp, respectively, with A + T contents of 69.41%, 68.46%, 70.30%, and 72.96%, respectively. Comparative genomic analyses suggested that they exhibited different genomic rearrangements. In particular, G. depressus shared a major rearrangement pattern present in Eriocheir crabs, while the remainder shared the brachyuran ground genomic rearrangement patterns. Phylomitogenomic inferences provided new evidence for the strongly supported nesting of Thoracotremata within Heterotremata clades. A close phylogenetic relationship was observed between Varunidae and Macrophthalmidae crabs, and between Dotillidae and Grapsidae crabs, which was consistent with mitochondrial genomic rearrangement similarities. Altogether, these results suggest the presence of reciprocal paraphyly for Ocypodoidea and Grapsoidea., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018