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PDBsum entry 4leu
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RNA binding protein
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PDB id
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4leu
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PDB id:
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| Name: |
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RNA binding protein
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Title:
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Crystal structure of tha8-like protein from arabidopsis thaliana
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Structure:
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Pentatricopeptide repeat-containing protein at3g46870. Chain: a. Engineered: yes
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Source:
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Arabidopsis thaliana. Mouse-ear cress,thale-cress. Organism_taxid: 3702. Gene: at3g46870, t6h20.100, tha8. Expressed in: escherichia coli. Expression_system_taxid: 469008.
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Resolution:
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2.00Å
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R-factor:
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0.207
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R-free:
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0.253
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Authors:
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J.Ke,R.Z.Chen,T.Ban,J.S.Brunzelle,X.Gu,Y.Kang,K.Melcher,J.K.Zhu, H.E.Xu
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Key ref:
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T.Ban
et al.
(2013).
Structure of a PLS-class pentatricopeptide repeat protein provides insights into mechanism of RNA recognition.
J Biol Chem,
288,
31540-31548.
PubMed id:
DOI:
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Date:
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26-Jun-13
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Release date:
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25-Sep-13
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PROCHECK
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Headers
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References
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Q9STF9
(THA8L_ARATH) -
Protein THYLAKOID ASSEMBLY 8-like, chloroplastic from Arabidopsis thaliana
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Seq:
Struc:
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257 a.a.
182 a.a.
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Key: |
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PfamA domain |
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Secondary structure |
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CATH domain |
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DOI no:
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J Biol Chem
288:31540-31548
(2013)
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PubMed id:
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Structure of a PLS-class pentatricopeptide repeat protein provides insights into mechanism of RNA recognition.
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T.Ban,
J.Ke,
R.Chen,
X.Gu,
M.H.Tan,
X.E.Zhou,
Y.Kang,
K.Melcher,
J.K.Zhu,
H.E.Xu.
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ABSTRACT
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Pentatricopeptide repeat (PPR) proteins are sequence-specific RNA-binding
proteins that form a pervasive family of proteins conserved in yeast, plants,
and humans. The plant PPR proteins are grouped mainly into the P and PLS
classes. Here, we report the crystal structure of a PLS-class PPR protein from
Arabidopsis thaliana called THA8L (THA8-like) at 2.0 Å. THA8L resembles THA8
(thylakoid assembly 8), a protein that is required for the splicing of specific
group II introns of genes involved in biogenesis of chloroplast thylakoid
membranes. The THA8L structure contains three P-type PPR motifs flanked by one
L-type motif and one S-type motif. We identified several putative THA8L-binding
sites, enriched with purine sequences, in the group II introns. Importantly,
THA8L has strong binding preference for single-stranded RNA over single-stranded
DNA or double-stranded RNA. Structural analysis revealed that THA8L contains two
extensive patches of positively charged residues next to the residues that are
proposed to comprise the RNA-binding codes. Mutations in these two positively
charged patches greatly reduced THA8L RNA-binding activity. On the basis of
these data, we constructed a model of THA8L-RNA binding that is dependent on two
forces: one is the interaction between nucleotide bases and specific amino acids
in the PPR motifs (codes), and the other is the interaction between the
negatively charged RNA backbone and positively charged residues of PPR motifs.
Together, these results further our understanding of the mechanism of PPR
protein-RNA interactions.
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