A putative stem-loop structure in Drosophila crumbs is required for mRNA localisation in epithelia and germline cells

Crumbs (Crb) is an evolutionarily conserved transmembrane protein localised in the apical membrane of epithelial cells. Loss or mis-localisation of Crb is often associated with disruption of apico-basal cell polarity. crb mRNA is also apically enriched in epithelial cells, and, as shown here, accumulates in the oocyte of developing egg chambers. We narrowed down the Localization Element (LE) of crb mRNA to 47 nucleotides forming a putative stem-loop structure, suggesting to be recognised by Egalitarian (Egl). Mutations in conserved nucleotides abrogate apical transport. crb mRNA enrichment in the oocyte is affected in egl mutant egg chambers. A CRISPR based genomic deletion of the crb locus that includes the LE disrupts asymmetric crb mRNA localisation in epithelia and prevents its accumulation in the oocyte during early stages of oogenesis, but does not affect Crb protein localisation in embryonic and follicular epithelia. However, flies lacking the LE show ectopic Crb protein expression in the nurse cells. These data suggest an additional role of the Drosophila 3’-UTR in regulating translation in a tissue specific manner.

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968: Gelsolin Gene Silencing Involving Unusual Chromatin Structures and a Novel Stem Loop Structure of the Promoter Region in Human Bladder Cancer

The Journal of Urology ◽

10.1016/s0022-5347(18)38205-3 ◽

2004 ◽

Vol 171 (4S) ◽

pp. 256-257

Author(s):

Kazunori Haga ◽

Ataru Sazawa ◽

Toru Harabayashi ◽

Nobuo Shinohara ◽

Minoru Nomoto ◽

...

Keyword(s):

Bladder Cancer ◽

Gene Silencing ◽

Promoter Region ◽

Loop Structure ◽

Human Bladder Cancer ◽

Human Bladder ◽

Stem Loop ◽

Stem Loop Structure

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Detection and sequence analysis of an imperfect stem-loop structure in cis activating gene element from SV40PolyA

Hereditas (Beijing) ◽

10.3724/sp.j.1005.2011.00337 ◽

2011 ◽

Vol 33 (4) ◽

pp. 337-346

Author(s):

Hong-Gang WANG ◽

Huan MA ◽

Zhu LI ◽

Bin ZHANG ◽

Xiang-Yang JING ◽

...

Keyword(s):

Sequence Analysis ◽

Loop Structure ◽

Stem Loop ◽

Stem Loop Structure ◽

In Cis ◽

Gene Element

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Nitrate-inducible formate dehydrogenase in Escherichia coli K-12. II. Evidence that a mRNA stem-loop structure is essential for decoding opal (UGA) as selenocysteine.

Journal of Biological Chemistry ◽

10.1016/s0021-9258(18)54584-1 ◽

1991 ◽

Vol 266 (33) ◽

pp. 22386-22391

Author(s):

B.L. Berg ◽

C. Baron ◽

V. Stewart

Keyword(s):

Escherichia Coli ◽

Formate Dehydrogenase ◽

Loop Structure ◽

Stem Loop ◽

Stem Loop Structure ◽

K 12

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Locking up the AS1411 Aptamer with a Flanking Duplex: Towards an Improved Nucleolin-Targeting

Pharmaceuticals ◽

10.3390/ph14020121 ◽

2021 ◽

Vol 14 (2) ◽

pp. 121

Author(s):

André Miranda ◽

Tiago Santos ◽

Eric Largy ◽

Carla Cruz

Keyword(s):

Loop Structure ◽

Binding Properties ◽

Stem Loop ◽

Affinity Ligand ◽

Stem Loop Structure ◽

Topology Maintenance ◽

G Quadruplex ◽

Dimeric Form ◽

Biophysical Techniques ◽

Melting Experiments

We have designed AS1411-N6, a derivative of the nucleolin (NCL)-binding aptamer AS1411, by adding six nucleotides to the 5′-end that are complementary to nucleotides at the 3′-end forcing it into a stem-loop structure. We evaluated by several biophysical techniques if AS1411-N6 can adopt one or more conformations, one of which allows NCL binding. We found a decrease of polymorphism of G-quadruplex (G4)-forming sequences comparing to AS1411 and the G4 formation in presence of K+ promotes the duplex folding. We also studied the binding properties of ligands TMPyP4, PhenDC3, PDS, 360A, and BRACO-19 in terms of stability, binding, topology maintenance of AS1411-N6, and NCL recognition. The melting experiments revealed promising stabilizer effects of PhenDC3, 360A, and TMPyP4, and the affinity calculations showed that 360A is the most prominent affinity ligand for AS1411-N6 and AS1411. The affinity determined between AS1411-N6 and NCL denoting a strong interaction and complex formation was assessed by PAGE in which the electrophoretic profile of AS1411-N6 showed bands of the dimeric form in the presence of the ligands and NCL.

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Role of a Stem-Loop Structure inHelicobacter pylori cagATranscript Stability

Infection and Immunity ◽

10.1128/iai.00692-18 ◽

2018 ◽

Vol 87 (2) ◽

Cited By ~ 3

Author(s):

John T. Loh ◽

Aung Soe Lin ◽

Amber C. Beckett ◽

Mark S. McClain ◽

Timothy L. Cover

Keyword(s):

Steady State ◽

Untranslated Region ◽

Loop Structure ◽

Stem Loop ◽

Content Type ◽

Transcript Stability ◽

Protein Levels ◽

Caga Protein ◽

Stem Loop Structure ◽

Steady State Levels

ABSTRACTHelicobacter pyloriCagA is a secreted effector protein that contributes to gastric carcinogenesis. Previous studies showed that there is variation amongH. pyloristrains in the steady-state levels of CagA and that a strain-specific motif downstream of thecagAtranscriptional start site (the +59 motif) is associated with both high levels of CagA and premalignant gastric histology. ThecagA5′ untranslated region contains a predicted stem-loop-forming structure adjacent to the +59 motif. In the current study, we investigated the effect of the +59 motif and the adjacent stem-loop oncagAtranscript levels andcagAmRNA stability. Using site-directed mutagenesis, we found that mutations predicted to disrupt the stem-loop structure resulted in decreased steady-state levels of both thecagAtranscript and the CagA protein. Additionally, these mutations resulted in a decreasedcagAmRNA half-life. Mutagenesis of the +59 motif without altering the stem-loop structure resulted in reduced steady-statecagAtranscript and CagA protein levels but did not affectcagAtranscript stability.cagAtranscript stability was not affected by increased sodium chloride concentrations, an environmental factor known to augmentcagAtranscript levels and CagA protein levels. These results indicate that both a predicted stem-loop structure and a strain-specific +59 motif in thecagA5′ untranslated region influence the levels ofcagAexpression.

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Mechanism of Rep-Mediated Adeno-Associated Virus Origin Nicking

Journal of Virology ◽

10.1128/jvi.74.17.7762-7771.2000 ◽

2000 ◽

Vol 74 (17) ◽

pp. 7762-7771 ◽

Cited By ~ 48

Author(s):

J. Rodney Brister ◽

Nicholas Muzyczka

Keyword(s):

Specific Activity ◽

Dna Helicase ◽

Loop Structure ◽

Stem Loop ◽

Adeno Associated Virus ◽

Stem Loop Structure ◽

Virus Origin ◽

Rep Proteins ◽

Sequence Elements ◽

Origin Function

ABSTRACT The single-stranded adeno-associated virus type 2 (AAV) genome is flanked by terminal repeats (TRs) that fold back on themselves to form hairpinned structures. During AAV DNA replication, the TRs are nicked by the virus-encoded Rep proteins at the terminal resolution site (trs). This origin function apparently requires three sequence elements, the Rep binding element (RBE), a small palindrome that comprises a single tip of an internal hairpin within the TR (RBE′), and the trs. Previously, we determined the sequences at the trs required for Rep-mediated cleavage and demonstrated that the trs endonuclease reaction occurs in two discrete steps. In the first step, the Rep DNA helicase activity unwinds the TR, thereby extruding a stem-loop structure at thetrs. In the second step, Rep transesterification activity cleaves the trs. Here we investigate the contribution of the RBE and RBE′ during this process. Our data indicate that Rep is tethered to the RBE in a specific orientation duringtrs nicking. This orientation appears to align Rep on the AAV TR, allowing specific nucleotide contacts with the RBE′ and directing nicking to the trs. Accordingly, alterations in the polarity or position of the RBE relative to the trsgreatly inhibit Rep nicking. Substitutions within the RBE′ also reduce Rep specific activity, but to a lesser extent. Interestingly, Rep interactions with the RBE and RBE′ during nicking seem to be functionally distinct. Rep contacts with the RBE appear necessary for both the DNA helicase and trs cleavage steps of the endonuclease reaction. On the other hand, RBE′ contacts seem to be required primarily for TR unwinding and formation of thetrs stem-loop structure, not cleavage. Together, these results suggest a model of Rep interaction with the AAV TR during origin nicking through a tripartite cleavage signal comprised of the RBE, the RBE′, and the trs.

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