Akhila Parthasarthy scite author profile

The isoform diversity of the Drosophila Dscam1 receptor is important for neuronal self-recognition and self-avoidance. A canonical model suggests that homophilic binding of identical Dscam1 receptor isoforms on sister dendrites ensures self-avoidance even when only a single isoform is expressed. We detected a cell-intrinsic function of Dscam1 that requires the coexpression of multiple isoforms. Manipulation of the Dscam1 isoform pool in single neurons caused severe disruption of collateral formation of mechanosensory axons. Changes in isoform abundance led to dominant dosage-sensitive inhibition of branching. We propose that the ratio of matching to nonmatching isoforms within a cell influences the Dscam1-mediated signaling strength, which in turn controls axon growth and growth cone sprouting. Cell-intrinsic use of surface receptor diversity may be of general importance in regulating axonal branching during brain wiring.

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Modulation of differential transcription of tRNA genes through chromatin organization

Parthasarthy

Gopinathan

2005

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In higher eukaryotes, tRNA multigene families comprise several copies encoding the same tRNA isoacceptor species. Of the 11 copies of a tRNA1Gly family from the mulberry silkworm Bombyx mori, individual members are differentially transcribed in vivo in the B. mori-derived BmN cell lines and in vitro in silk gland nuclear extracts. These genes have identical coding regions and hence harbour identical internal control sequences (the A and B boxes), but differ significantly in their 5' and 3' flanking regions. In the present study, we demonstrate the role of chromatin structure in the down-regulation of the poorly expressed copy, tRNA1Gly-6,7. Distinct footprints in the 5'-upstream region of the poorly transcribed gene in vitro as well as in vivo suggested the presence of nucleosomes. A theoretical analysis of the immediate upstream sequence of this gene copy also revealed a high propensity of nucleosome formation. The low transcription of tRNA1Gly-6,7 DNA was further impaired on assembly into chromatin and this inhibition was relieved by externally supplemented TFIIIC with an associated histone acetyltransferase activity. The inhibition due to nucleosome assembly was absent when the 5'-upstream region beyond -53 nt was deleted or entirely swapped with the 5'-upstream region of the highly transcribed gene copy, which does not position a nucleosome. Footprinting of the in vitro assembled tRNA1Gly-6,7 chromatin confirmed the presence of a nucleosome in the immediate upstream region potentially masking TFIIIB binding. Addition of TFIIIC unmasked the footprints present on account of the nucleosome. Our studies provide the first evidence for nucleosomal repression leading to differential expression of individual members from within a tRNA multigene family.

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Transcription of individual tRNA^Gly₁ genes from within a multigene family is regulated by transcription factor TFIIIB

Parthasarthy

Gopinathan

2005

The FEBS Journal

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In eukaryotes, nuclear gene transcriptions are accomplished by three different RNA polymerases, RNA pol I, pol II and pol III [1,2]. The promoters for class III genes transcribed by RNA pol III, with the exception of the snRNAs, generally lack a TATA box but still require TATA box binding protein (TBP) for transcription [3][4][5]. The genes encoding tRNAs have promoter elements located within the coding region of the genes (designated as the A and B boxes), and require two basal factors, TFIIIB and TFIIIC [6], which are multisubunit proteins [7][8][9][10]. TFIIIC binds to the A and B boxes first, followed by recruitment of TFIIIB in the immediate upstream region (through protein-protein interaction) and finally the RNA pol III [11][12][13]. TFIIIB consists of three subunits, B-double prime 1 (Bdp1; 90 kDa), TFIIB-related factor 1 (Brf1; 60 kDa) and TBP in yeast, or two forms, TFIIIBa (comprising TBP, Brf2 and Bdp1 required for transcription of U6-type RNA pol III promoters) [14] and TFIIIBb (comprising TBP, Brf1 and Bdp1 required for transcription of tRNA and VA1-type RNA pol III promoters) [15], in humans. In the absence of TATA box sequences in these promoters, recruitment of TBP to the transcription site is achieved by interactions between the associated factors [16,17]. TFIIIB is analogous to the pol II-specific factor,

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Transcriptional activation of a moderately expressed tRNA gene by a positioned nucleosome

Parthasarthy

Gopinathan

2006

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All of the members of a tRNA1(Gly) multigene family from the mulberry silkworm, Bombyx mori, have identical coding regions and consequently identical internal promoter elements, but are transcribed at different levels. A moderately expressed copy, tRNA1(Gly)-4 from within this multigene family, which was transcribed to 30-50% of the highly transcribed gene copies harboured two typical TATAA box sequences in the 5' upstream region at positions -27 nt and -154 nt with respect to the +1 nt of mature tRNA. Deletion of the distal TATAA sequence at -154 nt brought down the transcription more than 70%, whereas mutation of the proximal element did not affect transcription. tRNA1(Gly)-4 could be readily assembled into chromatin, with a positioned nucleosome in the upstream region, and the assembled nucleosome formed stable complexes with the transcription factors TFIIIC and TFIIIB. Organization of the gene into nucleosomes also enhanced transcription significantly above that of the naked DNA, reaching transcription levels comparable with those of the highly transcribed copies. This nucleosome-mediated enhancement in transcription was absent when the distal TATAA sequences were deleted, whereas mutation of the proximal TATAA element showed no effect. In the absence of the distal TATAA sequences, assembly into the nucleosome inhibited transcription of tRNA1(Gly)-4. TFIIIB bound directly through the distal TATAA sequence at -154 nt and the positioned nucleosome facilitated its interaction with TFIIIC. The direct binding of TFIIIB to the DNA provided anchoring of the factor to the template DNA which conferred a higher stability on the TFIIIB-TFIIIC-DNA complex. We have proposed a novel mechanism for the nucleosome-mediated stimulation of pol III (RNA polymerase III) transcription of tRNA genes, a model not presented previously.

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