Derek L. Stemple 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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DNA Detection Using Recombination Proteins

Piepenburg

et al. 2006

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DNA amplification is essential to most nucleic acid testing strategies, but established techniques require sophisticated equipment or complex experimental procedures, and their uptake outside specialised laboratories has been limited. Our novel approach, recombinase polymerase amplification (RPA), couples isothermal recombinase-driven primer targeting of template material with strand-displacement DNA synthesis. It achieves exponential amplification with no need for pretreatment of sample DNA. Reactions are sensitive, specific, and rapid and operate at constant low temperature. We have also developed a probe-based detection system. Key aspects of the combined RPA amplification/detection process are illustrated by a test for the pathogen methicillin-resistant Staphylococcus aureus. The technology proves to be sensitive to fewer than ten copies of genomic DNA. Furthermore, products can be detected in a simple sandwich assay, thereby establishing an instrument-free DNA testing system. This unique combination of properties is a significant advance in the development of portable and widely accessible nucleic acid–based tests.

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Silberblick/Wnt11 mediates convergent extension movements during zebrafish gastrulation

Heisenberg

Tada²,

Rauch

et al. 2000

Nature

927

815

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Vertebrate gastrulation involves the specification and coordinated movement of large populations of cells that give rise to the ectodermal, mesodermal and endodermal germ layers. Although many of the genes involved in the specification of cell identity during this process have been identified, little is known of the genes that coordinate cell movement. Here we show that the zebrafish silberblick (slb) locus encodes Wnt11 and that Slb/Wnt11 activity is required for cells to undergo correct convergent extension movements during gastrulation. In the absence of Slb/Wnt11 function, abnormal extension of axial tissue results in cyclopia and other midline defects in the head. The requirement for Slb/Wnt11 is cell non-autonomous, and our results indicate that the correct extension of axial tissue is at least partly dependent on medio-lateral cell intercalation in paraxial tissue. We also show that the slb phenotype is rescued by a truncated form of Dishevelled that does not signal through the canonical Wnt pathway, suggesting that, as in flies, Wnt signalling might mediate morphogenetic events through a divergent signal transduction cascade. Our results provide genetic and experimental evidence that Wnt activity in lateral tissues has a crucial role in driving the convergent extension movements underlying vertebrate gastrulation.

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Isolation of a stem cell for neurons and glia from the mammalian neural crest

Stemple

Anderson

1992

Cell

753

573

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A systematic genome-wide analysis of zebrafish protein-coding gene function

Kettleborough

Busch-Nentwich

Harvey

et al. 2013

Nature

587

517

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Since the publication of the human reference genome, the identities of specific genes associated with human diseases are being discovered at an enormous rate. A central problem is that the biological activity of these genes is often unclear. Detailed investigations in vertebrate model organisms, typically mice, have been essential for understanding the activities of many orthologues of these disease-associated genes. Although gene-targeting approaches1-3 and phenotype analysis have led to a detailed understanding of nearly 6,000 protein-coding genes3,4, this number falls significantly short of all >22,000 mouse protein-coding genes5. Similarly, in zebrafish genetics, one-by-one gene studies using positional cloning6, insertional mutagenesis7-9, antisense morpholino oligonucleotides10, targeted re-sequencing11-13 and zinc finger and TAL endonucleases14-17 have made significant contributions to our understanding of the biological activity of vertebrate genes, but the number of genes studied again falls well short of the >26,000 zebrafish protein-coding genes18. Importantly, for both mice and zebrafish, none of these strategies is particularly suited to the rapid generation of knockouts in thousands of genes and the assessment of their biological activity. Enabled by a well-annotated zebrafish reference genome sequence18,19, high-throughput sequencing and efficient chemical mutagenesis, we describe an active project that aims to identify and phenotype disruptive mutations in every zebrafish protein-coding gene. Thus far we have identified potentially disruptive mutations in more than 38% of all known protein coding genes. We have developed a multi-allelic phenotyping scheme to efficiently assess the effects of each allele during embryogenesis and have analysed the phenotypic consequences of over 1000 alleles. All mutant alleles and data are available to the community and our phenotyping scheme is adaptable to phenotypic analysis beyond embryogenesis.

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New gene functions in megakaryopoiesis and platelet formation

Gieger

Radhakrishnan

Cvejic

et al. 2011

Nature

382

388

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Platelets are the second most abundant cell type in blood and are essential for maintaining haemostasis. Their count and volume are tightly controlled within narrow physiological ranges, but there is only limited understanding of the molecular processes controlling both traits. Here we carried out a high-powered meta-analysis of genome-wide association studies (GWAS) in up to 66,867 individuals of European ancestry, followed by extensive biological and functional assessment. We identified 68 genomic loci reliably associated with platelet count and volume mapping to established and putative novel regulators of megakaryopoiesis and platelet formation. These genes show megakaryocyte-specific gene expression patterns and extensive network connectivity. Using gene silencing in Danio rerio and Drosophila melanogaster, we identified 11 of the genes as novel regulators of blood cell formation. Taken together, our findings advance understanding of novel gene functions controlling fate-determining events during megakaryopoiesis and platelet formation, providing a new example of successful translation of GWAS to function.

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A high-resolution mRNA expression time course of embryonic development in zebrafish

et al. 2017

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We have produced an mRNA expression time course of zebrafish development across 18 time points from 1 cell to 5 days post-fertilisation sampling individual and pools of embryos. Using poly(A) pulldown stranded RNA-seq and a 3′ end transcript counting method we characterise temporal expression profiles of 23,642 genes. We identify temporal and functional transcript co-variance that associates 5024 unnamed genes with distinct developmental time points. Specifically, a class of over 100 previously uncharacterised zinc finger domain containing genes, located on the long arm of chromosome 4, is expressed in a sharp peak during zygotic genome activation. In addition, the data reveal new genes and transcripts, differential use of exons and previously unidentified 3′ ends across development, new primary microRNAs and temporal divergence of gene paralogues generated in the teleost genome duplication. To make this dataset a useful baseline reference, the data can be browsed and downloaded at Expression Atlas and Ensembl.

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Structure and function of the notochord: an essential organ for chordate development

Stemple

2005

391

395

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The notochord is the defining structure of the chordates, and has essential roles in vertebrate development. It serves as a source of midline signals that pattern surrounding tissues and as a major skeletal element of the developing embryo. Genetic and embryological studies over the past decade have informed us about the development and function of the notochord. In this review, I discuss the embryonic origin, signalling roles and ultimate fate of the notochord, with an emphasis on structural aspects of notochord biology.

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Derek L. Stemple

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

DNA Detection Using Recombination Proteins

Silberblick/Wnt11 mediates convergent extension movements during zebrafish gastrulation

Isolation of a stem cell for neurons and glia from the mammalian neural crest

A systematic genome-wide analysis of zebrafish protein-coding gene function

New gene functions in megakaryopoiesis and platelet formation

A high-resolution mRNA expression time course of embryonic development in zebrafish

Structure and function of the notochord: an essential organ for chordate development

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