J.P. Pelz scite author profile

Eukaryotic cells determine the protein output of their genetic program by regulating mRNA transcription, localization, translation and turnover rates. This regulation is accomplished by an ensemble of RNA-binding proteins (RBPs) that bind to any given mRNA, thus forming mRNPs. Poly(A) binding proteins (PABPs) are prominent members of virtually all mRNPs that possess poly(A) tails. They serve as multifunctional scaffolds, allowing the recruitment of diverse factors containing a poly(A)-interacting motif (PAM) into mRNPs. We present the crystal structure of the variant PAM motif (termed PAM2w) in the N-terminal part of the positive translation factor LARP4B, which binds to the MLLE domain of the poly(A) binding protein C1 cytoplasmic 1 (PABPC1). The structural analysis, along with mutational studies in vitro and in vivo, uncovered a new mode of interaction between PAM2 motifs and MLLE domains.

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Crystallizing the 6S and 8S spliceosomal assembly intermediates: a complex project

Pelz

Schindelin

Pee

et al. 2015

Acta Cryst D Biol Crystallogr

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The small nuclear ribonucleoproteins (snRNPs) U1, U2, U4/6 and U5 are major constituents of the pre-mRNA processing spliceosome. They contain a common RNP core that is formed by the ordered binding of Sm proteins onto the single-stranded Sm site of the snRNA. Although spontaneous in vitro, assembly of the Sm core requires assistance from the PRMT5 and SMN complexes in vivo. To gain insight into the key steps of the assembly process, the crystal structures of two assembly intermediates of U snRNPs termed the 6S and 8S complexes have recently been reported. These multimeric protein complexes could only be crystallized after the application of various rescue strategies. The developed strategy leading to the crystallization and solution of the 8S crystal structure was subsequently used to guide a combination of rational crystal-contact optimization with surface-entropy reduction of crystals of the related 6S complex. Conversely, the resulting high-resolution 6S crystal structure was used during the restrained refinement of the 8S crystal structure.

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The 8S snRNP Assembly Intermediate

Grimm¹,

Pelz²,

Schindelin³

et al. 2013

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The PABC1 MLLE domain bound to the variant PAM2 motif of LARP4B

Grimm¹,

Pelz²

2011

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The 6S snRNP assembly intermediate

Grimm¹,

Pelz²

2013

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J.P. Pelz

Crystal Structure of a Variant PAM2 Motif of LARP4B Bound to the MLLE Domain of PABPC1

Crystallizing the 6S and 8S spliceosomal assembly intermediates: a complex project

The 8S snRNP Assembly Intermediate

The PABC1 MLLE domain bound to the variant PAM2 motif of LARP4B

The 6S snRNP assembly intermediate

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