Literature DB >> 18719123

Localizing organomercury uptake and accumulation in zebrafish larvae at the tissue and cellular level.

Malgorzata Korbas1, Scott R Blechinger, Patrick H Krone, Ingrid J Pickering, Graham N George.   

Abstract

Using synchrotron x-ray fluorescence mapping, we have examined the uptake and localization of organic mercury in zebrafish larvae. Strikingly, the greatest accumulation of methyl and ethyl mercury compounds was highly localized in the rapidly dividing lens epithelium, with lower levels going to brain, optic nerve, and various other organs. The data suggest that the reported impairment of visual processes by mercury may arise not only from previously reported neurological effects, but also from direct effects on the ocular tissue. This novel approach is a powerful tool for directly investigating the molecular toxicology of heavy metals, and should be equally applicable to the study of a wide range of elements in developing embryos.

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Year:  2008        PMID: 18719123      PMCID: PMC2527873          DOI: 10.1073/pnas.0803147105

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  34 in total

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Authors:  Hans Bloemendal; Wilfried de Jong; Rainer Jaenicke; Nicolette H Lubsen; Christine Slingsby; Annette Tardieu
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2.  In vivo monitoring of mercury ions using a rhodamine-based molecular probe.

Authors:  Sung-Kyun Ko; Young-Keun Yang; Jinsung Tae; Injae Shin
Journal:  J Am Chem Soc       Date:  2006-11-01       Impact factor: 15.419

3.  Stages of embryonic development of the zebrafish.

Authors:  C B Kimmel; W W Ballard; S R Kimmel; B Ullmann; T F Schilling
Journal:  Dev Dyn       Date:  1995-07       Impact factor: 3.780

Review 4.  Zebrafish as a model vertebrate for investigating chemical toxicity.

Authors:  Adrian J Hill; Hiroki Teraoka; Warren Heideman; Richard E Peterson
Journal:  Toxicol Sci       Date:  2005-02-09       Impact factor: 4.849

5.  Comparative effects of dietary methylmercury on gene expression in liver, skeletal muscle, and brain of the zebrafish (Danio rerio).

Authors:  P Gonzalez; Y Dominique; J C Massabuau; A Boudou; J P Bourdineaud
Journal:  Environ Sci Technol       Date:  2005-06-01       Impact factor: 9.028

6.  A ubiquitin-proteasome system is responsible for the protection of yeast and human cells against methylmercury.

Authors:  Gi-Wook Hwang; Takemitsu Furuchi; Akira Naganuma
Journal:  FASEB J       Date:  2002-03-12       Impact factor: 5.191

7.  Mercury binding to the chelation therapy agents DMSA and DMPS and the rational design of custom chelators for mercury.

Authors:  Graham N George; Roger C Prince; Jürgen Gailer; Gavin A Buttigieg; M Bonner Denton; Hugh H Harris; Ingrid J Pickering
Journal:  Chem Res Toxicol       Date:  2004-08       Impact factor: 3.739

8.  Cerebrospinal fluid S100B increases reversibly in neonates of methyl mercury-intoxicated pregnant rats.

Authors:  Evelin Vicente; Matheus Boer; Marina Leite; Mariane Silva; Francine Tramontina; Lisiane Porciúncula; Carla Dalmaz; Carlos-Alberto Gonçalves
Journal:  Neurotoxicology       Date:  2004-09       Impact factor: 4.294

9.  A sensitive and selective near-infrared fluorescent probe for mercuric ions and its biological imaging applications.

Authors:  Bo Tang; Li Juan Cui; Ke Hua Xu; Li Li Tong; Gui Wen Yang; Li Guo An
Journal:  Chembiochem       Date:  2008-05-05       Impact factor: 3.164

10.  Development and adult morphology of the eye lens in the zebrafish.

Authors:  Ralf Dahm; Helia B Schonthaler; Anne S Soehn; Jan van Marle; Gijs F J M Vrensen
Journal:  Exp Eye Res       Date:  2007-03-19       Impact factor: 3.467
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  18 in total

1.  Glutathione complex formation with mercury(II) in aqueous solution at physiological pH.

Authors:  Vicky Mah; Farideh Jalilehvand
Journal:  Chem Res Toxicol       Date:  2010-10-12       Impact factor: 3.739

Review 2.  In situ imaging of metals in cells and tissues.

Authors:  Reagan McRae; Pritha Bagchi; S Sumalekshmy; Christoph J Fahrni
Journal:  Chem Rev       Date:  2009-10       Impact factor: 60.622

3.  X-ray-Based Techniques to Study the Nano-Bio Interface.

Authors:  Carlos Sanchez-Cano; Ramon A Alvarez-Puebla; John M Abendroth; Tobias Beck; Robert Blick; Yuan Cao; Frank Caruso; Indranath Chakraborty; Henry N Chapman; Chunying Chen; Bruce E Cohen; Andre L C Conceição; David P Cormode; Daxiang Cui; Kenneth A Dawson; Gerald Falkenberg; Chunhai Fan; Neus Feliu; Mingyuan Gao; Elisabetta Gargioni; Claus-C Glüer; Florian Grüner; Moustapha Hassan; Yong Hu; Yalan Huang; Samuel Huber; Nils Huse; Yanan Kang; Ali Khademhosseini; Thomas F Keller; Christian Körnig; Nicholas A Kotov; Dorota Koziej; Xing-Jie Liang; Beibei Liu; Sijin Liu; Yang Liu; Ziyao Liu; Luis M Liz-Marzán; Xiaowei Ma; Andres Machicote; Wolfgang Maison; Adrian P Mancuso; Saad Megahed; Bert Nickel; Ferdinand Otto; Cristina Palencia; Sakura Pascarelli; Arwen Pearson; Oula Peñate-Medina; Bing Qi; Joachim Rädler; Joseph J Richardson; Axel Rosenhahn; Kai Rothkamm; Michael Rübhausen; Milan K Sanyal; Raymond E Schaak; Heinz-Peter Schlemmer; Marius Schmidt; Oliver Schmutzler; Theo Schotten; Florian Schulz; A K Sood; Kathryn M Spiers; Theresa Staufer; Dominik M Stemer; Andreas Stierle; Xing Sun; Gohar Tsakanova; Paul S Weiss; Horst Weller; Fabian Westermeier; Ming Xu; Huijie Yan; Yuan Zeng; Ying Zhao; Yuliang Zhao; Dingcheng Zhu; Ying Zhu; Wolfgang J Parak
Journal:  ACS Nano       Date:  2021-03-02       Impact factor: 15.881

Review 4.  X-ray fluorescence imaging of metals and metalloids in biological systems.

Authors:  Run Zhang; Li Li; Yasmina Sultanbawa; Zhi Ping Xu
Journal:  Am J Nucl Med Mol Imaging       Date:  2018-06-05

5.  A new synchrotron rapid-scanning X-ray fluorescence (SRS-XRF) imaging station at SSRL beamline 6-2.

Authors:  Nicholas P Edwards; Samuel M Webb; Courtney M Krest; Douglas van Campen; Phillip L Manning; Roy A Wogelius; Uwe Bergmann
Journal:  J Synchrotron Radiat       Date:  2018-08-28       Impact factor: 2.616

Review 6.  Elemental and chemically specific X-ray fluorescence imaging of biological systems.

Authors:  M Jake Pushie; Ingrid J Pickering; Malgorzata Korbas; Mark J Hackett; Graham N George
Journal:  Chem Rev       Date:  2014-08-07       Impact factor: 60.622

7.  Biogenesis of zinc storage granules in Drosophila melanogaster.

Authors:  Carlos Tejeda-Guzmán; Abraham Rosas-Arellano; Thomas Kroll; Samuel M Webb; Martha Barajas-Aceves; Beatriz Osorio; Fanis Missirlis
Journal:  J Exp Biol       Date:  2018-03-19       Impact factor: 3.312

8.  Target organ specific activity of drosophila MRP (ABCC1) moderates developmental toxicity of methylmercury.

Authors:  Lisa Prince; Malgorzata Korbas; Philip Davidson; Karin Broberg; Matthew Dearborn Rand
Journal:  Toxicol Sci       Date:  2014-05-25       Impact factor: 4.849

9.  The chemical nature of mercury in human brain following poisoning or environmental exposure.

Authors:  Malgorzata Korbas; John L O'Donoghue; Gene E Watson; Ingrid J Pickering; Satya P Singh; Gary J Myers; Thomas W Clarkson; Graham N George
Journal:  ACS Chem Neurosci       Date:  2010-10-15       Impact factor: 4.418

10.  The chemical forms of mercury in human hair: a study using X-ray absorption spectroscopy.

Authors:  Graham N George; Satya P Singh; Gary J Myers; Gene E Watson; Ingrid J Pickering
Journal:  J Biol Inorg Chem       Date:  2010-03-12       Impact factor: 3.358
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