A gynogenetic screen to isolate naturally occurring recessive mutations in Xenopus tropicalis

Noramly, Selina; Zimmerman, Lyle B.; Cox, Amanda; Aloise, Renee; Fisher, Matthew; Grainger, Robert M.

doi:10.1016/j.mod.2004.11.001

Cited by 46 publications

(39 citation statements)

References 57 publications

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“…When reducing the expression of a specific gene in X. tropicalis, the target is only a single gene, not two genes as in X. laevis, and identifying recessive phenotypes requires mutagenizing two independent loci, not four. More than 40 mutants were identified in X. laevis by inbreeding and gynogenesis after several decades of efforts by the early 1990s [25], while 122 potential mutations of X. tropicalis have been reported by the similar approaches, and 42 have been confirmed as genetically heritable mutations [9,12,27].…”

Section: What Is Xenopus Tropicalis?mentioning

confidence: 99%

“…Forty-two potential mutant phenotypes were isolated by a gynogenetic screen of naturally occurring recessive mutations in wild X. tropicalis. Ten lines of the developmental mutants have genetically heritable recessive phenotypes [27]. The forward and reverse genetic screens were undertaken for chemicallyinduced mutations in X. tropicalis [9].…”

Section: Examples Of Published Papersmentioning

confidence: 99%

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Xenopus tropicalis: An Ideal Experimental Animal in Amphibia

Kashiwagi

Kurabayashi

et al. 2010

Exp. Anim.

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Studies using amphibians have contributed to the progress of life science including developmental biology and cell biology for more than one hundred years. Since the 1950s Xenopus laevis in particular has been used by scientists in many fields for experiments, resulting in the development of various techniques such as microsurgery on early embryos, biosynthesis of gene-encoded protein in oocytes by mRNA injection, misexpression experiments by mRNA injection into embryos, gene knockdown studies by injection of morpholino anti-sense oligonucleotide into fertilized eggs, transgenesis by the I-SceI meganuclease method, and so on. In this paper we will introduce Xenopus tropicalis as an alternative experimental animal. It has a shorter generation time and smaller diploid genome, together with whole-genome sequence data. The procedures available for Xenopus laevis can work well with Xenopus tropicalis, and embryos of both species develop at similar rates according to the developmental staging system of Nieuwkoop and Faber. Experimental systems of Xenopus tropicalis will pave the way for a new era of vertebrate genomics and genetics.

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Section: What Is Xenopus Tropicalis?mentioning

confidence: 99%

Section: Examples Of Published Papersmentioning

confidence: 99%

Xenopus tropicalis: An Ideal Experimental Animal in Amphibia

Kashiwagi

Kurabayashi

et al. 2010

Exp. Anim.

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“…The recent advent of transgenic frog technologies in Xenopus tropicalis, which has a GRP and flow just like Xenopus laevis (Blum et al, 2009), provides further options for generating and analyzing mutant lines using all of the above-mentioned techniques. The first three examples of mutants with LR defects have already been published (Noramly et al, 2005), and more should become available as mutagenesis projects proceed (Amaya, 2005;Grammer et al, 2005; http:// tropicalis.berkeley.edu/home).…”

Section: Experimental Manipulations Of Grp and Flowmentioning

confidence: 99%

Xenopus, an ideal model system to study vertebrate left‐right asymmetry

Blum

Beyer

Weber

et al. 2009

Developmental Dynamics

104

100

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“…Several groups are currently performing chemical, irradiation, and insertional mutagenesis screens, but such approaches remain in their infancy due to the lack of easily scored mutations for optimizing mutagen dose levels. However, recently two groups published the first set of naturally occurring mutations in X. tropicalis, which should help facilitate such optimization experiments (Grammer et al 2005;Noramly et al 2005). …”

Section: Genome Research 1685mentioning

confidence: 99%

Xenomics

Amaya¹

2005

Genome Res.

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Xenopus genomics, or Xenomics for short, is coming of age. Indeed, biological insight into processes such as growth factor signaling and patterning of the early embryo is now being gained by combining the value of Xenopus as a model organism for cell and developmental biology with genomic approaches. In this review I address these recent advances and explore future possibilities gained from combining this powerful experimental system with genomic approaches, as well as how our quest to understand basic biological principles will be greatly facilitated though the marriage of Xenopus and genomics.Xenopus genomics is very much in its infancy. Although largescale sequencing efforts were slow to be initiated in this system, in the past 3-4 yr there has been an explosion of genomic information accumulating in Xenopus laevis and its diploid relative, Xenopus tropicalis (Fig.1). Since the beginning of 2003, >320,000 sequences have been deposited in public repositories for X. laevis and >1,100,000 for X. tropicalis, mostly in the form of expressed sequence tags (ESTs). With this expansive amount of new sequence information, X. tropicalis recently jumped into third place on the list of organisms with the most EST's, behind human and mouse. During the same period of time, the Joint Genome Institute (JGI) has been sequencing the X. tropicalis genome, using a shotgun approach, and it has recently completed ‫ן8‬ coverage. The JGI is currently in the process of assembling the X. tropicalis genome, and it is expected that the JGI will announce its results by the end of 2005. Now that such an extensive amount of genomic information is becoming available in Xenopus, how will this be useful in our scientific pursuits? This question is best answered by further asking, "What is the ultimate value of obtaining sequence information?" If the ultimate aim is not simply to catalog genes but to understand their function, then it would be very advantageous to find the ideal organisms to study gene function. It is here where the marriage of Xenopus and genomics will reap its full benefits, as Xenopus is perhaps the best vertebrate model organism for functional genomics. Functional screensXenopus is arguably the best available vertebrate model for systematic large-scale in vivo gene function analysis. In this section I review the different types of functional screens that can be performed in Xenopus.

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A gynogenetic screen to isolate naturally occurring recessive mutations in Xenopus tropicalis

Cited by 46 publications

References 57 publications

Xenopus tropicalis: An Ideal Experimental Animal in Amphibia

Xenopus tropicalis: An Ideal Experimental Animal in Amphibia

Xenopus, an ideal model system to study vertebrate left‐right asymmetry

Xenomics

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