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- The Beginning of the End: A Chromosomal Assembly of the New World Malaria Mosquito Ends with a Novel TelomereCompton, Austin; Liang, Jiangtao; Chen, Chujia; Lukyanchikova, Varvara; Qi, Yumin; Potters, Mark B.; Settlage, Robert; Miller, Dustin; Deschamps, Stephane; Mao, Chunhong; Llaca, Victor; Sharakhov, Igor V.; Tu, Zhijian Jake (Genetics Society of America, 2020-10-01)Chromosome level assemblies are accumulating in various taxonomic groups including mosquitoes. However, even in the few reference-quality mosquito assemblies, a significant portion of the heterochromatic regions including telomeres remain unresolved. Here we produce a de novo assembly of the New World malaria mosquito, Anopheles albimanus by integrating Oxford Nanopore sequencing, Illumina, Hi-C and optical mapping. This 172.6 Mbps female assembly, which we call AalbS3, is obtained by scaffolding polished large contigs (contig N50 = 13.7 Mbps) into three chromosomes. All chromosome arms end with telomeric repeats, which is the first in mosquito assemblies and represents a significant step toward the completion of a genome assembly. These telomeres consist of tandem repeats of a novel 30-32 bp Telomeric Repeat Unit (TRU) and are confirmed by analyzing the termini of long reads and through both chromosomal in situ hybridization and a Bal31 sensitivity assay. The AalbS3 assembly included previously uncharacterized centromeric and rDNA clusters and more than doubled the content of transposable elements and other repetitive sequences. This telomere-to-telomere assembly, although still containing gaps, represents a significant step toward resolving biologically important but previously hidden genomic components. The comparison of different scaffolding methods will also inform future efforts to obtain reference-quality genomes for other mosquito species.
- Deficiency in the endocytic adaptor proteins PHETA1/2 impairs renal and craniofacial developmentAtes, Kristin M.; Wang, Tong; Moreland, Trevor; Veeranan-Karmegam, Rajalakshmi; Ma, Manxiu; Jeter, Chelsi; Anand, Priya; Wenzel, Wolfgang; Kim, Hyung-Goo; Wolfe, Lynne A.; Stephen, Joshi; Adams, David R.; Markello, Thomas; Tifft, Cynthia J.; Settlage, Robert E.; Gahl, William A.; Gonsalvez, Graydon B.; Malicdan, May Christine; Flanagan-Steet, Heather; Pan, Yuchin Albert (2020-05)A critical barrier in the treatment of endosomal and lysosomal diseases is the lack of understanding of the in vivo functions of the putative causative genes. We addressed this by investigating a key pair of endocytic adaptor proteins, PH domain-containing endocytic trafficking adaptor 1 and 2 (PHETA1/2; also known as FAM109A/B, Ses1/2, IPIP27A/B), which interact with the protein product of OCRL, the causative gene for Lowe syndrome. Here, we conducted the first study of PHETA1/2 in vivo, utilizing the zebrafish system. We found that impairment of both zebrafish orthologs, phetal and pheta2, disrupted endocytosis and ciliogenesis in renal tissues. In addition, pheta1/2 mutant animals exhibited reduced jaw size and delayed chondrocyte differentiation, indicating a role in craniofacial development. Deficiency of pheta1/2 resulted in dysregulation of cathepsin K, which led to an increased abundance of type II collagen in craniofacial cartilages, a marker of immature cartilage extracellular matrix. Cathepsin K inhibition rescued the craniofacial phenotypes in the pheta1/2 double mutants. The abnormal renal and craniofacial phenotypes in the pheta1/2 mutant animals were consistent with the clinical presentation of a patient with a de novo arginine (R) to cysteine (C) variant (R6C) of PHETA1. Expressing the patient-specific variant in zebrafish exacerbated craniofacial deficits, suggesting that the R6C allele acts in a dominant-negative manner. Together, these results provide insights into the in vivo roles of PHETA1/2 and suggest that the R6C variant is contributory to the pathogenesis of disease in the patient. This article has an associated First Person interview with the first author of the paper.
- Public Access: A Driver for Preservation and Discovery of Datasets at a US Land-Grant InstitutionOgier, Andrea; Petters, Jonathan L.; Pannabecker, Virginia; Settledge, Robert; Grant, Elizabeth J.; Harden, Samantha M.; Griffin, Julie; Walters, Tyler (2019-08-24)Public access to federally funded research data ensures preservation and discovery of datasets to promote translation of research evidence into meaningful outcomes. However, historical policy and concerns regarding making data publicly accessible impede realization of implementing public access to data. These concerns include worry over the treatment of intellectual property, the cost (in time and money) of making research publicly accessible, and the danger of accidentally releasing human subjects data. To overcome these issues, a Public Access to Data Committee was established at a public university in rural southwest Virginia. In this paper we review the history of federal public access provisions, share goals, and describe the committee’s process to ultimately engage faculty and administrators in this critical link from research to practice.
- Specific labeling of synaptic schwann cells reveals unique cellular and molecular featuresCastro, Ryan W.; Taetzsch, Thomas; Vaughan, Sydney K.; Godbe, Kerilyn; Chappell, John C.; Settlage, Robert E.; Valdez, Gregorio (2020-06-25)Perisynaptic Schwann cells (PSCs) are specialized, non-myelinating, synaptic glia of the neuromuscular junction (NMJ), that participate in synapse development, function, maintenance, and repair. The study of PSCs has relied on an anatomy-based approach, as the identities of cell-specific PSC molecular markers have remained elusive. This limited approach has precluded our ability to isolate and genetically manipulate PSCs in a cell specific manner. We have identified neuron-glia antigen 2 (NG2) as a unique molecular marker of S100 beta+ PSCs in skeletal muscle. NG2 is expressed in Schwann cells already associated with the NMJ, indicating that it is a marker of differentiated PSCs. Using a newly generated transgenic mouse in which PSCs are specifically labeled, we show that PSCs have a unique molecular signature that includes genes known to play critical roles in PSCs and synapses. These findings will serve as a springboard for revealing drivers of PSC differentiation and function.