The human gut microbiota is a reservoir of antibiotic resistance genes, but little is known about their diversity and richness within the gut. Here we analyse the antibiotic resistance genes of gut microbiota from 162 individuals. We identify a total of 1,093 antibiotic resistance genes and find that Chinese individuals harbour the highest number and abundance of antibiotic resistance genes, followed by Danish and Spanish individuals. Single-nucleotide polymorphism-based analysis indicates that antibiotic resistance genes from the two European populations are more closely related while the Chinese ones are clustered separately. We also confirm high abundance of tetracycline resistance genes with this large cohort study. Our study provides a broad view of antibiotic resistance genes in the human gut microbiota.
Transgene-based genetic sexing methods are being developed for insects of agricultural and public health importance. Male-only rearing has long been sought in sericulture because males show superior economic characteristics, such as better fitness, lower food consumption, and higher silk yield. Here we report the establishment of a transgene-based genetic sexing system for the silkworm, Bombyx mori. We developed a construct in which a positive feedback loop regulated by sex-specific alternative splicing leads to high-level expression of the tetracycline-repressible transactivator in females only. Transgenic animals show female-specific lethality during embryonic and early larval stages, leading to male-only cocoons. This transgene-based female-specific lethal system not only has wide application in sericulture, but also has great potential in lepidopteran pest control.Lepidoptera | doublesex T he mulberry silkworm, Bombyx mori, is a completely domesticated insect and is the foundation of sericulture, an endeavor of great economic importance. It is believed that sericulture originated in China and has been conducted there for more than 5,000 y (1). Male-only rearing techniques for B. mori are desirable because males show higher resistance to disease, lower food consumption, and better silk quality (2). To this end, several B. mori strains for male-only rearing have been developed by classical genetics. In the last century, Strunnikov (3) established a sex-linked, balanced-lethal system using radiation-induced chromosome translocations. However, conventional approaches involving selective breeding or irradiation for developing male-only silkworm strains are time and labor consuming. Thus, novel approaches are desired to improve modern silkworm breeding. In recent years, advances in B. mori genetic manipulation, notably genetic transformation, have been successfully established and applied extensively in gene function analysis and the production of bioreactors (1, 4-7). These technologies provide a potential basis for improvements in sericulture including the development of a male-only rearing system.Transgene-based genetic sexing systems have been developed in Drosophila melanogaster (8, 9) and several medically and agriculturally important insect species (10-13) as part of a series of genetics-based improvements and alternatives to the sterile insect technique (14). Systems based on sex-specific lethality for improving silk production are preferable to those using differential expression of a marker gene, for example fluorescence, which then would require manual or automated examination of each individual as part of the sorting process. Molecular designs developed for Diptera should be able to provide genetic sexing in B. mori, as the ability to transfer systems from one species to another is a key advantage of transgenic approaches over classical genetic methods (14-16). Furthermore, despite early reports to the contrary, more recent work has established clearly that transgenic strains can be developed with good...
Laccase, a member of a group of proteins collectively known as multicopper oxidases, is hypothesized to play an important role in insect cuticle sclerotization by oxidizing catechols in the cuticle to their corresponding quinones, which then catalyze protein cross-linking reactions. Laccase 2 has been proved as the gene required for beetle cuticle tanning through RNA interference (RNAi) experiments on red flour beetle Tribolium castaneum. The pine sawyer beetle, Monochamus alternatus (Coleoptero: Cerambycidae) is the insect serving as a major vector of the pinewood nematode, Bursaphelenchus xylophilus, which is the causative agent for pine wilt disease. The cDNA of MaLac2 was cloned from the insect in this study. The conceptual amino-acid sequence deduced was much conserved with other known insect laccases, particularly with the enzyme of Tribolium castaneum. Injection in hemolymph of pine sawyer larva of dsRNA targeting the laccase 2 mRNA leads to important alterations of the tanning, hardening and sclerotization of the pupal and adult cuticles. Defaults appear in a dose-dependent manner and high loads of dsRNA are lethal. The decrease of the endogenous laccase 2 mRNA affects the procuticle which is thinner and without the characteristic piling up of successive layers. The observations reinforce the role of laccase 2 as an essential phenoloxidase for making cuticle.
The human gut is a reservoir for antibiotic resistance genes. In this report, we used a DNA microarray chip covering 369 resistance types to investigate the relationship between antibiotic resistance-gene diversity and human age. Metagenomic DNA from fecal samples from 124 healthy volunteers of four different age groups (pre-school-aged children (CH), school-aged children (SC), high school students (HSS) and adults (AD)) were hybridized to the microarray chip. The results showed that 80 different gene types were recovered from the gut microbiota of the 124 individuals: 25 from CH, 37 from SC, 58 from HSS and 72 from AD. Further analysis indicated that the antibiotic resistance genes in the CH, SC and AD groups clustered independently, whereas the gene types in the HSS group were more divergent. Our results indicated that antibiotic resistance genes in the human gut microbiota accumulate from childhood to adulthood and become more complex with age.
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