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313 results on '"Invertebrate Genetics"'

301. No Genetic Tradeoffs between Hygienic Behaviour and Individual Innate Immunity in the Honey Bee, Apis mellifera

Author

Anna M. Chernyshova, Arash Soltani, Mohammad Mahjoorighasrodashti, Amro Zayed, Nadejda Tsvetkov, Zhixing Xu, and Brock A. Harpur

Subjects
Lipopolysaccharides, Male, 0106 biological sciences, Heredity, Inheritance Patterns, lcsh:Medicine, 01 natural sciences, Invertebrate Genetics, Pollinator, Hemolymph, lcsh:Science, 0303 health sciences, Multidisciplinary, Ecology, Bees, Biological Evolution, humanities, Insects, Worker bee, Phenotype, behavior and behavior mechanisms, Female, Honey Bees, Research Article, Evolutionary Immunology, Arthropoda, Genotype, Immunology, Zoology, Biology, 010603 evolutionary biology, Herd immunity, 03 medical and health sciences, Quantitative Trait, Heritable, Immunity, Genetics, Animals, Arthrobacter, 030304 developmental biology, Evolutionary Biology, Innate immune system, Quantitative Traits, Human evolutionary genetics, lcsh:R, fungi, Organisms, Biology and Life Sciences, Honey bee, Invertebrates, Hymenoptera, Grooming, Immunity, Innate, Evolutionary Ecology, Humoral Immunity, lcsh:Q, Animal Genetics, Mass Behavior, Antimicrobial Cationic Peptides
Abstract

Many animals have individual and social mechanisms for combating pathogens. Animals may exhibit short-term physiological tradeoffs between social and individual immunity because the latter is often energetically costly. Genetic tradeoffs between these two traits can also occur if mutations that enhance social immunity diminish individual immunity, or vice versa. Physiological tradeoffs between individual and social immunity have been previously documented in insects, but there has been no study of genetic tradeoffs involving these traits. There is strong evidence that some genes influence both innate immunity and behaviour in social insects – a prerequisite for genetic tradeoffs. Quantifying genetic tradeoffs is critical for understanding the evolution of immunity in social insects and for devising effective strategies for breeding disease-resistant pollinator populations. We conducted two experiments to test the hypothesis of a genetic tradeoff between social and individual immunity in the honey bee, Apis mellifera. First, we estimated the relative contribution of genetics to individual variation in innate immunity of honey bee workers, as only heritable traits can experience genetic tradeoffs. Second, we examined if worker bees with hygienic sisters have reduced individual innate immune response. We genotyped several hundred workers from two colonies and found that patriline genotype does not significantly influence the antimicrobial activity of a worker’s hemolymph. Further, we did not find a negative correlation between hygienic behaviour and the average antimicrobial activity of a worker’s hemolymph across 30 honey bee colonies. Taken together, our work indicates no genetic tradeoffs between hygienic behaviour and innate immunity in honey bees. Our work suggests that using artificial selection to increase hygienic behaviour of honey bee colonies is not expected to concurrently compromise individual innate immunity of worker bees.

Published
2014
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302. SNP Identification by Transcriptome Sequencing and Candidate Gene-Based Association Analysis for Heat Tolerance in the Bay Scallop Argopecten irradians

Author

Li Li, Shoudu Zhang, Du Xuedi, Fei Meng, and Guofan Zhang

Subjects
Bivalves, Candidate gene, Hot Temperature, Argopecten irradians, lcsh:Medicine, Marine Biology, Locus (genetics), Single-nucleotide polymorphism, Aquaculture, Polymorphism, Single Nucleotide, Molecular Genetics, Invertebrate Genetics, Genetics, Animals, Allele, lcsh:Science, Molecular Biology, Allele frequency, Evolutionary Biology, Multidisciplinary, Ecology, biology, lcsh:R, Marine Ecology, Organisms, Biology and Life Sciences, Agriculture, Fisheries Science, Molluscs, biology.organism_classification, Invertebrates, Adaptation, Physiological, Pectinidae, Scallop, lcsh:Q, Mariculture, Transcriptome, Animal Genetics, Bay, Population Genetics, Research Article
Abstract

The northern bay scallop Argopecten irradians irradians (Lamarck) and the southern bay scallop Argopecten irradians concentricus (Say) were introduced into China in the 1980s and 1990s, and are now major aquaculture molluscs in China. Here, we report the transcriptome sequencing of the two subspecies and the subsequent association analysis on candidate gene on the trait of heat tolerance. In total, RNA from six tissues of 67 and 42 individuals of northern and southern bay scallops, respectively, were used and 55.5 and 34.9 million raw reads were generated, respectively. There were 82,267 unigenes produced in total, of which 32,595 were annotated. Altogether, 32,206 and 23,312 high-quality SNPs were identified for northern and southern bay scallops, respectively. For case-control analysis, two intercrossed populations were heat stress treated, and both heat-susceptible and heat-resistant individuals were collected. According to annotation and SNP allele frequency analysis, 476 unigenes were selected, and 399 pairs of primers were designed. Genotyping was conducted using the high-resolution melting method, and Fisher's exact test was performed for allele frequency comparison between the heat-susceptible and heat-resistant groups. SNP all-53308-760 T/C showed a significant difference in allele frequency between the heat-susceptible and heat-resistant groups. Notably, considerable difference in allele frequency at this locus was also observed between the sequenced natural populations. These results suggest that SNP all-53308-760 T/C may be related to the heat tolerance of the bay scallop. Moreover, quantitative expression analysis revealed that the expression level of all-53308 was negatively correlated with heat tolerance of the bay scallop.

Published
2014
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303. Discrete Levels of Twist Activity Are Required to Direct Distinct Cell Functions during Gastrulation and Somatic Myogenesis

Author

Mary K. Baylies, Krista C. Dobi, and Ming-Ching Wong

Subjects
Cell division, Organogenesis, lcsh:Medicine, Genes, Insect, Muscle Development, Cell Fate Determination, Mesoderm, Invertebrate Genetics, Twist transcription factor, 0302 clinical medicine, Cell Movement, Cell polarity, Drosophila Proteins, lcsh:Science, Genetics, 0303 health sciences, Multidisciplinary, Drosophila Melanogaster, Gene Expression Regulation, Developmental, Cell biology, Insects, Phenotype, medicine.anatomical_structure, 030220 oncology & carcinogenesis, embryonic structures, Drosophila, Cell Division, Research Article, Epithelial-Mesenchymal Transition, animal structures, Arthropoda, Ventral furrow formation, Biology, Models, Biological, 03 medical and health sciences, medicine, Animals, Epithelial–mesenchymal transition, Mitosis, Alleles, 030304 developmental biology, Gastrulation, Twist-Related Protein 1, lcsh:R, Organisms, Biology and Life Sciences, Invertebrates, Mutation, lcsh:Q, Gene Function, Organism Development, Animal Genetics, Developmental Biology
Abstract

Twist (Twi), a conserved basic helix-loop-helix transcriptional regulator, directs the epithelial-to-mesenchymal transition (EMT), and regulates changes in cell fate, cell polarity, cell division and cell migration in organisms from flies to humans. Analogous to its role in EMT, Twist has been implicated in metastasis in numerous cancer types, including breast, pancreatic and prostate. In the Drosophila embryo, Twist is essential for discrete events in gastrulation and mesodermal patterning. In this study, we derive a twi allelic series by examining the various cellular events required for gastrulation in Drosophila. By genetically manipulating the levels of Twi activity during gastrulation, we find that coordination of cell division is the most sensitive cellular event, whereas changes in cell shape are the least sensitive. Strikingly, we show that by increasing levels of Snail expression in a severe twi hypomorphic allelic background, but not a twi null background, we can reconstitute gastrulation and produce viable adult flies. Our results demonstrate that the level of Twi activity determines whether the cellular events of ventral furrow formation, EMT, cell division and mesodermal migration occur.

Published
2014
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304. Face Time.

Author

Thoemmes, Megan S., Fergus, Daniel J., and Urban, Julie

Subjects
*DEMODEX, *HUMAN body, *MOLECULES, *INVERTEBRATE genetics, *DNA
Abstract

The article focuses on a study conducted by the authors on demodex mites in human body and their human-associated species including Demodex folliculorum (D. folliculorum) and Demodex brevis (D. brevis). Topics discussed include molecular approach used by the authors to understand the mites colonizing in human beings, presence of Demodex DNA on face of adults and genetic variations in the two species of mites.

Published
2015

305. A Non-Anemone Among Anemones.

Author

RodríGuez, EstefaníA and Daly, Marymegan

Subjects
*SEA anemones, *BIOLOGICAL classification, *CNIDARIA, *CONVERGENT evolution, *INVERTEBRATE genetics
Abstract

The article discusses the genetic study of sea anemones, of the order Actiniaria, focusing on the identification of a new species, Relicanthus daphneae, as part of a new order, but still within the phylum Cnidaria, and which had previously been misidentified as a sea anemone and named Boloceroides daphnaea. Topics include convergent evolution; the reduction of the number of anemone suborders from four to two through genetic study; and the possible existence of a second Relicanthus species.

Published
2014

307. Metabolomic profiling reveals deep chemical divergence between two morphotypes of the zoanthid Parazoanthus axinellae.

Author

Cachet, Nadja, Genta-Jouve, Grégory, Ivanisevic, Julijana, Chevaldonné, Pierre, Sinniger, Frédéric, Culioli, Gérald, Pérez, Thierry, and Thomas, Olivier P.

Subjects
*METABOLOMICS, *INVERTEBRATE genetics, *BIOACTIVE compounds, *WATER depth
Abstract

Metabolomics has recently proven its usefulness as complementary tool to traditional morphological and genetic analyses for the classification of marine invertebrates. Among the metabolite-rich cnidarian order Zoantharia, Parazoanthus is a polyphyletic genus whose systematics and phylogeny remain controversial. Within this genus, one of the most studied species, Parazoanthus axinellae is prominent in rocky shallow waters of the Mediterranean Sea and the NE Atlantic Ocean. Although different morphotypes can easily be distinguished, only one species is recognized to date. Here, a metabolomic profiling approach has been used to assess the chemical diversity of two main Mediterranean morphotypes, the 'slender' and 'stocky' forms of P. axinellae. Targeted profiling of their major secondary metabolites revealed a significant chemical divergence between the morphotypes. While zoanthoxanthin alkaloids and ecdysteroids are abundant in both morphs, the 'slender' morphotype is characterized by the presence of additional and bioactive 3,5-disubstituted hydantoin derivatives named parazoanthines. The absence of these specific compounds in the 'stocky' morphotype was confirmed by spatial and temporal monitoring over an annual cycle. Moreover, specimens of the 'slender' morphotype are also the only ones found as epibionts of several sponge species, particularly Cymbaxinella damicornis thus suggesting a putative ecological link. [ABSTRACT FROM AUTHOR]

Published
2015
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308. Genome Reveals Secrets of Bloodsucker.

Subjects
*IXODES scapularis, *INVERTEBRATE genetics, *TICKS as carriers of disease
Abstract

The article discusses the genome of the blacklegged tick or Ixodes scapularis deciphered by an international team of researchers, and mentions topics including the microbes transmitted by the ticks, the tick's blood-feeding life stages, and the determined peculiarities in the tick's lifestyle.

Published
2016

309. Onshore-offshore gradient in metacommunity turnover emerges only over macroevolutionary time-scales.

Author

Tomašových, Adam, Dominici, Stefano, Zuschin, Martin, and Merle, Didier

Subjects
*INVERTEBRATE evolution, *INVERTEBRATE genetics, *MACROEVOLUTION, *INVERTEBRATE communities, *MARINE biology
Abstract

Invertebrate lineages tend to originate and become extinct at a higher rate in onshore than in offshore habitats over long temporal durations (more than 10 Myr), but it remains unclear whether this pattern scales down to durations of stages (less than 5 Myr) or even sequences (less than 0.5 Myr). We assess whether onshore–offshore gradients in long-term turnover between the tropical Eocene and the warm-temperate Plio-Pleistocene can be extrapolated from gradients in short-term turnover, using abundances of molluscan species from bulk samples in the northeast Atlantic Province. We find that temporal turnover of metacommunities does not significantly decline with depth over short durations (less than 5 Myr), but significantly declines with depth between the Eocene and Plio-Pleistocene (approx. 50 Myr). This decline is determined by a higher onshore extinction of Eocene genera and families, by a higher onshore variability in abundances of genera and families, and by an onshore expansion of genera and families that were frequent offshore in the Eocene. Onshore–offshore decline in turnover thus emerges only over long temporal durations. We suggest that this emergence is triggered by abrupt and spatially extensive climatic or oceanographic perturbations that occurred between the Eocene and Plio-Pleistocene. Plio-Pleistocene metacommunities show a high proportion of bathymetric generalists, in contrast to Eocene metacommunities. Accordingly, the net cooling and weaker thermal gradients may have allowed offshore specialists to expand into onshore habitats and maintain their presence in offshore habitats. [ABSTRACT FROM AUTHOR]

Published
2014
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310. Chemically moderated gamete preferences predict offspring fitness in a broadcast spawning invertebrate.

Author

Oliver, Mathew and Evans, Jonathan P.

Subjects
*INVERTEBRATE reproduction, *GAMETES, *INVERTEBRATE spermatozoa, *CHEMORECEPTORS, *INVERTEBRATE genetics, *INVERTEBRATE eggs
Abstract

Sperm chemoattraction, where sperm locate unfertilized eggs by following a concentration gradient of egg-derived chemoattractants, has been widely documented across numerous taxa. While marine invertebrates are favoured models for understanding the underlying mechanisms of sperm chemoattraction, the evolutionary forces underpinning the process remain enigmatic. Here, we show that in mussels (Mytilus galloprovincialis), chemically moderated gamete preferences promote assortative fertilizations between genetically compatible gametes. When offered the choice of egg clutches from two females, sperm exhibited consistent but differential 'preferences' for chemical cues secreted from conspecific eggs. Critically, our data reveal that the preferences shown by sperm during the egg-choice trials are highly predictive of early embryonic viability when eggs and sperm from the same individuals are mixed during standard (no-choice) fertilization assays. Moreover, we demonstrate that by experimentally separating chemoattractants from eggs, sperm swimming behaviour is differentially regulated by egg-derived chemoattractants, and that these changes in sperm behaviour are highly consistent with observed patterns of gamete preferences, fertilization and larval survival. Together, this integrated series of experiments reveals that the behaviour of sperm is fine-tuned to respond differentially to the chemical signals emitted from different conspecific eggs, and that these choices have measurable fitness benefits. [ABSTRACT FROM AUTHOR]

Published
2014
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312. Acquiring the Essentials.

Author

L. M. Z.

Subjects
*BDELLOIDA, *INVERTEBRATE genetics, *GENETIC transformation
Abstract

The article discusses the identification of genes that may have undergone horizontal gene transfer in the transcriptome of hydrated and dehydrated Adineta ricciae bdelloid rotifers, which are microinvertebrates that reproduce asexually, by researcher Boschetti et al.

Published
2012

313. Responses of Freshwater Invertebrates to Climate Change.

Subjects
INVERTEBRATES, INVERTEBRATE genetics, CLIMATE change, TEMPERATURE, PREDATION, AQUATIC insects, ZOOPLANKTON
Abstract

The article discusses the plastic and evolutionary changes of fresh invertebrates in response to climate change. Topics discussed include challenges from temperature increase and ecological changes like predation rates, and genetic changes to cope with fitness losses. Species which include aquatic insects and zooplankton of lentic systems are said to have the potential for evolutionary changes.

Published
2014

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