The complete chloroplast genome of Libocedrus chevalieri, a Critically Endangered species in New Caledonia.

Libocedrus chevalieri is a rare endemic conifer from New Caledonia, and it is evaluated as Critically Endangered in the IUCN Red List of Threatened Species. To take conservation actions more effectively, a survey of its genomic background and evolutionary status is of great significance. Illumina paired-end reads were used to character the chloroplast (cp) genome of L. chevalieri. The circular genome is 122,068 bp in length, containing 115 genes, in which include 83 protein-coding genes, four ribosomal RNA genes, and 28 transfer RNA genes. Nine genes (atpF, rpoC1, ndhB, ndhA, rpl2, petB, rpl16, petD, rps12) have one intron, whilst one gene (ycf3) has two introns. Inverted repeat (IR) sequence doesn't exist in the genome. The GC content of the cp genome is 34.1%. The phylogenetic analysis demonstrates that L. chevalieri has a close relationship with L. plumosa.

Characterization of IncC Plasmids in Enterobacterales of Food-Producing Animals Originating From China.

Incompatibility group C (IncC) plasmids have received attention due to their broad host range and because they harbor key antibiotic resistance genes. Because these resistance genes can spread from food-producing animals to human, the proliferation of these plasmids represents a public health risk. In this study, a total of 20 IncC plasmids were collected from food-producing animals in China, and characterized by Oxford Nanopore Technologies long-read sequencing. Based on four key differences of the IncC backbone, 4 IncC plasmids were classified as type 1, 15 were classified as type 1/2 hybrid, and one was classified as type 2. The 15 type 1/2 hybrids were further divided into 13 type 1/2a and 2 type 1/2b, based on sequence differences arising from different homologous recombination events between type 1 and type 2 IncC backbones. Genome comparison of accessory resistance modules showed that different IncC plasmids exhibited various phenotypes via loss and gain of diverse modules, mainly within the bla CMY -carrying region, and two antibiotic resistance islands designated ARI-A and ARI-B. Interestingly, in addition to insertion and deletion events, IS26 or IS1294-mediated large sequence inversions were found in the IncC genome of the 4 type1/2a plasmids, suggesting that insertion sequence-mediated rearrangements also promote the diversity of the IncC genome. This study provides insight into the structural diversification and multidrug resistance of IncC plasmids identified from food-producing animals in China.