Literature DB >> 10527856

Molecular cloning of a novel Xenopus spalt gene (Xsal-3).

Y Onuma1, R Nishinakamura, S Takahashi, T Yokota, M Asashima.   

Abstract

The sal (spalt) gene family is characterized by unique double zinc finger motifs and is conserved among various species from Drosophila to humans. Here we report a new Xenopus member of this family, Xsal-3. It is 38% homologous at the amino acid level to the previously reported Xenopus homologue of the spalt gene, Xsal-1. Alternatively spliced Xsal-3 transcripts give rise to RNAs coding either two or three double zinc fingers, and the longer form is expressed maternally. Xsal-3 is expressed in the neural tube, the mandibular, hyoid, and branchial arch, and the pronephric duct, which is different from the expression pattern of Xsal-1. These findings suggest that Xsal-3 may have distinct roles in early Xenopus development. Copyright 1999 Academic Press.

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Year:  1999        PMID: 10527856     DOI: 10.1006/bbrc.1999.1479

Source DB:  PubMed          Journal:  Biochem Biophys Res Commun        ISSN: 0006-291X            Impact factor:   3.575


  16 in total

1.  The role of HSAL (SALL) genes in proliferation and differentiation in normal hematopoiesis and leukemogenesis.

Authors:  Li Chai
Journal:  Transfusion       Date:  2011-11       Impact factor: 3.157

2.  Mutations at the SALL4 locus on chromosome 20 result in a range of clinically overlapping phenotypes, including Okihiro syndrome, Holt-Oram syndrome, acro-renal-ocular syndrome, and patients previously reported to represent thalidomide embryopathy.

Authors:  J Kohlhase; L Schubert; M Liebers; A Rauch; K Becker; S N Mohammed; R Newbury-Ecob; W Reardon
Journal:  J Med Genet       Date:  2003-07       Impact factor: 6.318

3.  A novel spalt gene expressed in branchial arches affects the ability of cranial neural crest cells to populate sensory ganglia.

Authors:  Meyer Barembaum; Marianne Bronner-Fraser
Journal:  Neuron Glia Biol       Date:  2004-02

Review 4.  Kidney regeneration: common themes from the embryo to the adult.

Authors:  M Cecilia Cirio; Eric D de Groh; Mark P de Caestecker; Alan J Davidson; Neil A Hukriede
Journal:  Pediatr Nephrol       Date:  2013-09-05       Impact factor: 3.714

Review 5.  Nephron progenitors in the metanephric mesenchyme.

Authors:  Ryuichi Nishinakamura; Yukako Uchiyama; Masaji Sakaguchi; Sayoko Fujimura
Journal:  Pediatr Nephrol       Date:  2011-02-19       Impact factor: 3.714

Review 6.  In vitro organogenesis using multipotent cells.

Authors:  Akira Kurisaki; Yuzuru Ito; Yasuko Onuma; Atsushi Intoh; Makoto Asashima
Journal:  Hum Cell       Date:  2010-02-01       Impact factor: 4.174

Review 7.  The role of stem cell factor SALL4 in leukemogenesis.

Authors:  Chong Gao; Nikki R Kong; Li Chai
Journal:  Crit Rev Oncog       Date:  2011

8.  Sall1, sall2, and sall4 are required for neural tube closure in mice.

Authors:  Johann Böhm; Anja Buck; Wiktor Borozdin; Ashraf U Mannan; Uta Matysiak-Scholze; Ibrahim Adham; Walter Schulz-Schaeffer; Thomas Floss; Wolfgang Wurst; Jürgen Kohlhase; Francisco Barrionuevo
Journal:  Am J Pathol       Date:  2008-09-25       Impact factor: 4.307

9.  Targeting transcription factor SALL4 in acute myeloid leukemia by interrupting its interaction with an epigenetic complex.

Authors:  Chong Gao; Todor Dimitrov; Kol Jia Yong; Hiro Tatetsu; Ha-won Jeong; Hongbo R Luo; James E Bradner; Daniel G Tenen; Li Chai
Journal:  Blood       Date:  2013-01-03       Impact factor: 22.113

10.  Loss of the Sall3 gene leads to palate deficiency, abnormalities in cranial nerves, and perinatal lethality.

Authors:  M Parrish; T Ott; C Lance-Jones; G Schuetz; A Schwaeger-Nickolenko; A P Monaghan
Journal:  Mol Cell Biol       Date:  2004-08       Impact factor: 4.272
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