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1.
J Biol Chem ; 289(10): 6850-6861, 2014 Mar 07.
Artigo em Inglês | MEDLINE | ID: mdl-24415761

RESUMO

HP1(Hsα)-containing heterochromatin is located near centric regions of chromosomes and regulates DNA-mediated processes such as DNA repair and transcription. The higher-order structure of heterochromatin contributes to this regulation, yet the structure of heterochromatin is not well understood. We took a multidisciplinary approach to determine how HP1(Hsα)-nucleosome interactions contribute to the structure of heterochromatin. We show that HP1(Hsα) preferentially binds histone H3K9Me3-containing nucleosomal arrays in favor of non-methylated nucleosomal arrays and that nonspecific DNA interactions and pre-existing chromatin compaction promote binding. The chromo and chromo shadow domains of HP1(Hsα) play an essential role in HP1(Hsα)-nucleosome interactions, whereas the hinge region appears to have a less significant role. Electron microscopy of HP1(Hsα)-associated nucleosomal arrays showed that HP1(Hsα) caused nucleosome associations within an array, facilitating chromatin condensation. Differential sedimentation of HP1(Hsα)-associated nucleosomal arrays showed that HP1(Hsα) promotes interactions between arrays. These strand-to-strand interactions are supported by in vivo studies where tethering the Drosophila homologue HP1a to specific sites promotes interactions with distant chromosomal sites. Our findings demonstrate that HP1(Hsα)-nucleosome interactions cause chromatin condensation, a process that regulates many chromosome events.


Assuntos
Cromatina/química , Proteínas Cromossômicas não Histona/química , Nucleossomos/química , Animais , Homólogo 5 da Proteína Cromobox , Proteínas Cromossômicas não Histona/genética , Simulação por Computador , Proteínas de Drosophila/química , Proteínas de Drosophila/genética , Drosophila melanogaster/genética , Drosophila melanogaster/metabolismo , Histonas/química , Humanos , Modelos Químicos
2.
Plant Physiol ; 163(3): 1363-75, 2013 Nov.
Artigo em Inglês | MEDLINE | ID: mdl-24027240

RESUMO

Isoamylase-type starch debranching enzymes (ISA) play important roles in starch biosynthesis in chloroplast-containing organisms, as shown by the strict conservation of both catalytically active ISA1 and the noncatalytic homolog ISA2. Functional distinctions exist between species, although they are not understood yet. Numerous plant tissues require both ISA1 and ISA2 for normal starch biosynthesis, whereas monocot endosperm and leaf exhibit nearly normal starch metabolism without ISA2. This study took in vivo and in vitro approaches to determine whether organism-specific physiology or evolutionary divergence between monocots and dicots is responsible for distinctions in ISA function. Maize (Zea mays) ISA1 was expressed in Arabidopsis (Arabidopsis thaliana) lacking endogenous ISA1 or lacking both native ISA1 and ISA2. The maize protein functioned in Arabidopsis leaves to support nearly normal starch metabolism in the absence of any native ISA1 or ISA2. Analysis of recombinant enzymes showed that Arabidopsis ISA1 requires ISA2 as a partner for enzymatic function, whereas maize ISA1 was active by itself. The electrophoretic mobility of recombinant and native maize ISA differed, suggestive of posttranslational modifications in vivo. Sedimentation equilibrium measurements showed recombinant maize ISA1 to be a dimer, in contrast to previous gel permeation data that estimated the molecular mass as a tetramer. These data demonstrate that evolutionary divergence between monocots and dicots is responsible for the distinctions in ISA1 function.


Assuntos
Arabidopsis/enzimologia , Isoamilase/metabolismo , Folhas de Planta/metabolismo , Proteínas de Plantas/metabolismo , Zea mays/enzimologia , Arabidopsis/genética , Proteínas de Arabidopsis/genética , Proteínas de Arabidopsis/metabolismo , Western Blotting , Regulação Enzimológica da Expressão Gênica , Regulação da Expressão Gênica de Plantas , Isoamilase/química , Isoamilase/genética , Microscopia Eletrônica de Varredura , Microscopia Eletrônica de Transmissão , Mutação , Folhas de Planta/genética , Folhas de Planta/ultraestrutura , Proteínas de Plantas/química , Proteínas de Plantas/genética , Plantas Geneticamente Modificadas , Multimerização Proteica , Proteínas Recombinantes/metabolismo , Amido/metabolismo , Espectrometria de Massas em Tandem , Zea mays/genética
3.
Biophys J ; 97(6): 1804-7, 2009 Sep 16.
Artigo em Inglês | MEDLINE | ID: mdl-19751687

RESUMO

Histone acetylation plays an important role in the regulation of gene expression. A DNA aptamer generated by in vitro selection to be highly specific for histone H4 protein acetylated at lysine 16 was used as a recognition element for atomic force microscopy-based recognition imaging of synthetic nucleosomal arrays with precisely controlled acetylation. The aptamer proved to be reasonably specific at recognizing acetylated histones, with recognition efficiencies of 60% on-target and 12% off-target. Though this selectivity is much poorer than the >2000:1 equilibrium specificity of the aptamer, it is a large improvement on the performance of a ChIP-quality antibody, which is not selective at all in this application, and it should permit high-fidelity recognition with repeated imaging. The ability to image the precise location of posttranslational modifications may permit nanometer-scale investigation of their effect on chromatin structure.


Assuntos
Aptâmeros de Nucleotídeos/metabolismo , Cromatina/metabolismo , Técnicas de Sonda Molecular , Acetilação , Sequência de Aminoácidos , Animais , Aptâmeros de Nucleotídeos/genética , Sequência de Bases , Cromatina/química , Histonas/análise , Histonas/química , Histonas/metabolismo , Ligantes , Vírus do Tumor Mamário do Camundongo/genética , Microscopia de Força Atômica , Dados de Sequência Molecular , Ligação Proteica , Proteínas de Xenopus/química , Proteínas de Xenopus/metabolismo , Xenopus laevis
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