Project description:BACTERIAL COMMUNITIES IN THE ACID AND THERMOPHILIC CRATER-LAKE OF THE VOLCANO "EL CHICHON", MEXICO

Project description:Metagenomic El Chichon volcano, Chiapas Mexico

Project description:Microbial diversity of "El Chichon" volcano, Mexico

Project description:Inheritance and plasticity of epigenetic divergence characterise early stages of speciation in an incipient cichlid species of an African crater lake.

Project description:Bacterial community from pioneer plants at Chichon crater-lake. Outside Metagenome

Project description:Tianchi Volcano crater soil metagenome Raw sequence reads

Project description:Crater lake water Metagenome

Project description:Crater Lake microbial mats

Project description:Generation of transgenic cell lines is limited by inefficient gene editing requiring genotypic screening of hundreds to thousands of colonies to isolate correctly gene-edited cells. Here, we describe a novel method called CRISPRa On-Target Editing Retrieval (CRaTER) that enriches for cells with on-target knock-in of a promoterless cDNA-fluorescent reporter transgene by transiently overexpressing the targeted endogenous genetic locus and sorting for fluorescent cells. We use CRaTER to enrich for rare cells with heterozygous, biallelic-editing of the endogenous, transcriptionally-inactive MYH7 locus in human induced pluripotent stem cells (hiPSC), resulting in a 9-fold enrichment compared to antibiotics selection alone. We leveraged CRaTER to enrich for heterozygous knock-in of a library of single nucleotide variants (SNV) in MYH7, a gene encoding for sarcomeric MHC-β wherein autosomal dominant missense mutations cause cardiac and skeletal myopathies. CRaTER enabled 90% enrichment of heterozygous, biallelically-edited hiPSCs – a 38.6-fold enrichment compared to antibiotics selection alone – to generate 113 SNVs comprising 78 missense variants in MYH7. hiPSCs that have undergone CRaTER enrichment can differentiate to cardiomyocytes and exhibit expected localization and expression of MHC-β fusion proteins. Together, CRaTER substantially reduces the screening required for isolation of gene-edited cells, enabling the generation of transgenic cell lines at unprecedented scale.

Project description:Genomic analysis of a psychrotolerant strain of Pseudomonas marginalis isolated from a high-altitude volcano crater