Metazoan Maelstrom is an RNA-binding protein that has evolved from an ancient nuclease active in protists

Chen, Kuan-Ming; Campbell, Edgar; Pandey, Radha Raman; Yang, Zhaolin; McCarthy, A.A.; Pillai, Ramesh S.

doi:10.1261/rna.049437.114

Cited by 26 publications

(22 citation statements)

References 29 publications

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“…Diffraction data from crystals of the selenomethionyl derivate of the MAEL domain of B. mori Maelstrom (for crystallization conditions, see Chen et al, 2015) were collected using an X-ray beam of 10 mm in diameter with a flux of $9.5 Â 10 10 photons s À1 at the peak of the Se K absorption edge ( = 0.979 Å ) on beamline ID23-1 at the ESRF. Crystals of this system (20-50 mm in the largest dimension) diffract rather poorly; therefore, in order to increase the data multiplicity to Multi-crystal data collection and SAD structure solution from crystals of thermolysin.…”

Section: Mael Domain Of Bombyx Mori Maelstrommentioning

confidence: 99%

“…The first of these, thermolysin, contains one catalytic Zn 2+ ion and three Ca 2+ ions per protein chain (316 residues), producing a theoretical anomalous diffraction ratio (hÁF/F i) of $2% for data collected at the peak of the Zn K absorption edge. The second, the selenomethionyl derivative of the MAEL domain of B. mori Maelstrom (Chen et al, 2015), produces a theoretical anomalous diffraction ratio of 4.0% for data collected at the peak of the Se K absorption edge. However, the crystals of this system diffract rather poorly (see Table 1).…”

Section: 2mentioning

confidence: 99%

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MeshAndCollect: an automated multi-crystal data-collection workflow for synchrotron macromolecular crystallography beamlines

Zander

Bourenkov

Попов

et al. 2015

Acta Crystallogr D Biol Crystallogr

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119

121

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Here, an automated procedure is described to identify the positions of many cryocooled crystals mounted on the same sample holder, to rapidly predict and rank their relative diffraction strengths and to collect partial X-ray diffraction data sets from as many of the crystals as desired. Subsequent hierarchical cluster analysis then allows the best combination of partial data sets, optimizing the quality of the final data set obtained. The results of applying the method developed to various systems and scenarios including the compilation of a complete data set from tiny crystals of the membrane protein bacteriorhodopsin and the collection of data sets for successful structure determination using the single-wavelength anomalous dispersion technique are also presented.

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Section: Mael Domain Of Bombyx Mori Maelstrommentioning

confidence: 99%

Section: 2mentioning

confidence: 99%

MeshAndCollect: an automated multi-crystal data-collection workflow for synchrotron macromolecular crystallography beamlines

Zander

Bourenkov

Попов

et al. 2015

Acta Crystallogr D Biol Crystallogr

Self Cite

119

121

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“…This finding suggests that Exu evolved from active exonucleases and lost its catalytic activity along the arthropod stem lineage. Other EXO-domain proteins have been shown to bind RNA 51,55,56 . In particular, Maelstrom has recently been shown to lack canonical EXO activity, and it features a Zn 2+ -binding insertion that plays a functional role in RNA binding and the piwi-interacting-RNA pathway 55,57 .…”

Section: Evolution Of Exumentioning

confidence: 99%

The bicoid mRNA localization factor Exuperantia is an RNA-binding pseudonuclease

Lazzaretti

Veith

Kramer

et al. 2016

Nat Struct Mol Biol

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Anterior patterning in Drosophila is mediated by the localization of bicoid (bcd) mRNA at the anterior pole of the oocyte. Exuperantia (Exu) is a putative exonuclease (EXO) associated with bcd and required for its localization. We present the crystal structure of Exu, which reveals a dimeric assembly with each monomer consisting of a 3'-5' EXO-like domain and a sterile alpha motif (SAM)-like domain. The catalytic site is degenerate and inactive. Instead, the EXO-like domain mediates dimerization and RNA binding. We show that Exu binds RNA directly in vitro, that the SAM-like domain is required for RNA binding activity and that Exu binds a structured element present in the bcd 3' untranslated region with high affinity. Through structure-guided mutagenesis, we show that Exu dimerization is essential for bcd localization. Our data demonstrate that Exu is a noncanonical RNA-binding protein with EXO-SAM-like domain architecture that interacts with its target RNA as a homodimer.

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“…In protists, the MAEL domain was predicted to degrade RNA and may directly destroy nascent transcripts (Zhang et al, 2008a). In insects, the MAEL domain interacts with singlestranded RNA (Chen et al, 2015;Matsumoto et al, 2015); we speculate that fly Mael may have retained a role in destabilizing RNA. In this view, Mael may promote premature termination or degradation of nascent transcripts.…”

Section: A Putative Conserved Role For Maelmentioning

confidence: 93%

Maelstrom Represses Canonical Polymerase II Transcription within Bi-directional piRNA Clusters in Drosophila melanogaster

et al. 2019

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Metazoan Maelstrom is an RNA-binding protein that has evolved from an ancient nuclease active in protists

Cited by 26 publications

References 29 publications

MeshAndCollect: an automated multi-crystal data-collection workflow for synchrotron macromolecular crystallography beamlines

MeshAndCollect: an automated multi-crystal data-collection workflow for synchrotron macromolecular crystallography beamlines

The bicoid mRNA localization factor Exuperantia is an RNA-binding pseudonuclease

Maelstrom Represses Canonical Polymerase II Transcription within Bi-directional piRNA Clusters in Drosophila melanogaster

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