James D. Cooper scite author profile

Zebrafish have become a popular organism for the study of vertebrate gene function1,2. The virtually transparent embryos of this species, and the ability to accelerate genetic studies by gene knockdown or overexpression, have led to the widespread use of zebrafish in the detailed investigation of vertebrate gene function and increasingly, the study of human genetic disease3–5. However, for effective modelling of human genetic disease it is important to understand the extent to which zebrafish genes and gene structures are related to orthologous human genes. To examine this, we generated a high-quality sequence assembly of the zebrafish genome, made up of an overlapping set of completely sequenced large-insert clones that were ordered and oriented using a high-resolution high-density meiotic map. Detailed automatic and manual annotation provides evidence of more than 26,000 protein-coding genes6, the largest gene set of any vertebrate so far sequenced. Comparison to the human reference genome shows that approximately 70% of human genes have at least one obvious zebrafish orthologue. In addition, the high quality of this genome assembly provides a clearer understanding of key genomic features such as a unique repeat content, a scarcity of pseudogenes, an enrichment of zebrafish-specific genes on chromosome 4 and chromosomal regions that influence sex determination.

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The genome of the social amoeba Dictyostelium discoideum

Eichinger

Pachebat

Glöckner³

et al. 2005

Nature

1,150

1,146

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The social amoebae are exceptional in their ability to alternate between unicellular and multicellular forms. Here we describe the genome of the best-studied member of this group, Dictyostelium discoideum. The gene-dense chromosomes encode ~12,500 predicted proteins, a high proportion of which have long repetitive amino acid tracts. There are many genes for polyketide synthases and ABC transporters, suggesting an extensive secondary metabolism for producing and exporting small molecules. The genome is rich in complex repeats, one class of which is clustered and may serve as centromeres. Partial copies of the extrachromosomal rDNA element are found at the ends of each chromosome, suggesting a novel telomere structure and the use of a common mechanism to maintain both the rDNA and chromosomal termini. A proteome-based phylogeny shows that the amoebozoa diverged from the animal/fungal lineage after the plant/animal split, but Dictyostelium appears to have retained more of the diversity of the ancestral genome than either of these two groups.The amoebozoa are a richly diverse group of organisms whose genomes remain largely unexplored. The soil-dwelling social amoeba Dictyostelium discoideum has been actively studied for the past fifty years and has contributed greatly to our understanding of cellular motility, signalling and interaction 1 . For example, studies in Dictyostelium provided the first descriptions of a eukaryotic cell chemo-attractant and a cell-cell adhesion protein 2, 3 .Dictyostelium amoebae inhabit forest soil consuming bacteria and yeast, which they track by chemotaxis. Starvation, however, prompts the solitary cells to aggregate and to develop as a true multicellular organism, producing a fruiting body comprised of a cellular, cellulosic stalk supporting a bolus of spores. Thus, Dictyostelium has evolved mechanisms that direct the differentiation of a homogeneous population of cells into distinct cell types, regulate the proportions between tissues and orchestrate the construction of an effective structure for the dispersal of spores 4 . Many of the genes necessary for these processes in Dictyostelium were Eichinger et al. Page 2 Nature. Author manuscript; available in PMC 2006 January 27. NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author Manuscript also inherited by metazoa and fashioned through evolution for use within many different modes of development.The amoebozoa are also noteworthy as representing one of the earliest branches from the last common ancestor of all eukaryotes. Each of the surviving branches of the crown group of eukaryotes provides an example of the ways in which the ancestral genome has been sculpted and adapted by lineage-specific gene duplication, divergence and deletion. Comparison between representatives of these branches promises to shed light not only on the nature and content of the ancestral eukaryotic genome, but on the diversity of ways in which its components have been adapted to meet the needs of complex organisms. The genome of Dictyosteliu...

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Optimized inducible shRNA and CRISPR/Cas9 platforms for in vitro studies of human development using hPSCs

et al. 2016

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Inducible loss of gene function experiments are necessary to uncover mechanisms underlying development, physiology and disease. However, current methods are complex, lack robustness and do not work in multiple cell types. Here we address these limitations by developing single-step optimized inducible gene knockdown or knockout (sOPTiKD or sOPTiKO) platforms. These are based on genetic engineering of human genomic safe harbors combined with an improved tetracycline-inducible system and CRISPR/Cas9 technology. We exemplify the efficacy of these methods in human pluripotent stem cells (hPSCs), and show that generation of sOPTiKD/KO hPSCs is simple, rapid and allows tightly controlled individual or multiplexed gene knockdown or knockout in hPSCs and in a wide variety of differentiated cells. Finally, we illustrate the general applicability of this approach by investigating the function of transcription factors (OCT4 and T), cell cycle regulators (cyclin D family members) and epigenetic modifiers (DPY30). Overall, sOPTiKD and sOPTiKO provide a unique opportunity for functional analyses in multiple cell types relevant for the study of human development.

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A resource of vectors and ES cells for targeted deletion of microRNAs in mice

et al. 2011

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The 21-23 nucleotide single-stranded RNAs classified as microRNAs (miRNA) perform fundamental roles in a wide range of cellular and developmental processes. miRNAs regulate protein expression through sequence-specific base pairing with target messenger RNAs (mRNA) reducing both their stability and the process of protein translation1, 2. At least 30% of protein coding genes appear to be conserved targets for miRNAs1. In contrast to the protein coding genes3, 4, no public resource of miRNA mouse mutant alleles exists. We have generated a library of highly germ-line transmissible C57BL/6N mouse mutant embryonic stem (ES) cells with targeted deletions for the majority of miRNA genes currently annotated within the miRBase registry5. These alleles have been designed to be highly adaptable research tools that can be efficiently altered to create reporter, conditional and other allelic variants. This ES cell resource can be searched electronically and is available from ES cell repositories for distribution to the scientific community6.

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Alterations of the blood–brain barrier in cerebral white matter lesions in the ageing brain

Simpson

Wharton

Cooper

et al. 2010

Neuroscience Letters

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Use of double-replacement gene targeting to replace the murine alpha-lactalbumin gene with its human counterpart in embryonic stem cells and mice.

Stacey¹,

Schnieke²,

McWhir³

et al. 1994

Mol. Cell. Biol.

110

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The mouse a-lactalbumin gene has been replaced with the human gene by two consecutive rounds of gene targeting in hypoxanthine phosphoribosyltransferase (HPRT)-deficient feeder-independent murine embryonic stem (ES) cells. One mouse a-lactalbumin allele was first replaced by an HPRT minigene which was in turn replaced by human a-lactalbumin. The MATERIALS AND METHODSDNA cloning and constructs. The mouse a-lactalbumin gene was isolated from a library of strain 129 mouse genomic DNA (Stratagene) by hybridization with a mouse a-lactalbumin probe generated by PCR. Similarly, the human gene was isolated from a human genomic library (Stratagene) by hybridization with a human a-lactalbumin PCR fragment. Two overlapping X clones were isolated and characterized for each gene. A restriction map of the cloned mouse a-lactalbumin locus is shown in Fig. 1. The identity of cloned genomic fragments was verified by comparison of partial DNA sequences (data not shown) with the published human genomic (9) and mouse cDNA (35) a-lactalbumin sequences.MALHT. The MALHT (mouse alpha-lactalbumin, HPRT, TK) targeting vector shown in Fig. 1

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Venous thromboembolism in pediatric trauma patients: Ten‐year experience and long‐term follow‐up in a tertiary care center

Leeper

Vissa

Cooper

et al. 2017

Pediatric Blood & Cancer

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Lung transplantation for lymphangioleiomyomatosis

Pechet

Singhal

Meyers

et al. 2001

The Journal of Heart and Lung Transplantation

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James D. Cooper

The zebrafish reference genome sequence and its relationship to the human genome

The genome of the social amoeba Dictyostelium discoideum

Optimized inducible shRNA and CRISPR/Cas9 platforms for in vitro studies of human development using hPSCs

A resource of vectors and ES cells for targeted deletion of microRNAs in mice

Alterations of the blood–brain barrier in cerebral white matter lesions in the ageing brain

Use of double-replacement gene targeting to replace the murine alpha-lactalbumin gene with its human counterpart in embryonic stem cells and mice.

Venous thromboembolism in pediatric trauma patients: Ten‐year experience and long‐term follow‐up in a tertiary care center

Lung transplantation for lymphangioleiomyomatosis

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