Samuel A. Manning scite author profile

The root canal anatomy of 149 mandibular second molars was studied using a technique in which the pulp was removed, the canal space filled with black ink and the roots demineralized and made transparent. Of the 149 teeth, 22 per cent had single roots, 76 per cent had two roots and 2 per cent had three roots. In the single-rooted teeth, three canals were most common, while in the mesial root of the two-rooted teeth, two canals that joined near the apex and one canal in the distal root were most frequent. Round canals were most common in two-rooted teeth and C-shaped canals in single-rooted teeth. Transverse anastomoses were found in 33 per cent of roots, most commonly in the middle third of the root. Lateral canals were found in 72 per cent of roots, most commonly in the apical third of the root. The apical foramen was positioned at the apex in only 33 per cent of roots, and apical deltas were found in 35 per cent. The patient's age and race affected canal shape, with more round canals present in patients over 35 years of age, and more C-shaped canals in Asians. The sex of the patient and the side of the mouth affected the presence of apical deltas, with more being found in males and on the left side. Single-rooted teeth had more complex root canal systems than two-rooted teeth, with more lateral canals, transverse anastomoses, apical deltas and C-shaped canals.

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An in vivo large-scale chemical screening platform using Drosophila for anti-cancer drug discovery

Willoughby

et al. 2012

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SUMMARYAnti-cancer drug development involves enormous expenditure and risk. For rapid and economical identification of novel, bioavailable anti-tumour chemicals, the use of appropriate in vivo tumour models suitable for large-scale screening is key. Using a Drosophila Ras-driven tumour model, we demonstrate that tumour overgrowth can be curtailed by feeding larvae with chemicals that have the in vivo pharmacokinetics essential for drug development and known efficacy against human tumour cells. We then develop an in vivo 96-well plate chemical screening platform to carry out large-scale chemical screening with the tumour model. In a proof-of-principle pilot screen of 2000 compounds, we identify the glutamine analogue, acivicin, a chemical with known activity against human tumour cells, as a potent and specific inhibitor of Drosophila tumour formation. RNAi-mediated knockdown of candidate acivicin target genes implicates an enzyme involved in pyrimidine biosynthesis, CTP synthase, as a possible crucial target of acivicin-mediated inhibition. Thus, the pilot screen has revealed that Drosophila tumours are glutamine-dependent, which is an emerging feature of many human cancers, and has validated the platform as a powerful and economical tool for in vivo chemical screening. The platform can also be adapted for use with other disease models, thus offering widespread applications in drug development.

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Homeodomain-Interacting Protein Kinase Regulates Hippo Pathway-Dependent Tissue Growth

et al. 2012

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The Salvador-Warts-Hippo (SWH) pathway is an evolutionarily conserved regulator of tissue growth that is deregulated in human cancer. Upstream SWH pathway components convey signals from neighboring cells via a core kinase cassette to the transcription coactivator Yorkie (Yki). Yki controls tissue growth by modulating activity of transcription factors including Scalloped (Sd). To date, five SWH pathway kinases have been identified, but large-scale phosphoproteome studies suggest that unidentified SWH pathway kinases exist. To identify such kinases, we performed an RNA interference screen and isolated homeodomain-interacting protein kinase (Hipk). Unlike previously identified SWH pathway kinases, Hipk is unique in its ability to promote, rather than repress, Yki activity and does so in parallel to the Yki-repressive kinase, Warts (Wts). Hipk is required for basal Yki activity and is likely to regulate Yki function by promoting its accumulation in the nucleus. Like many SWH pathway proteins, Hipk's function is evolutionarily conserved as its closest human homolog, HIPK2, promotes activity of the Yki ortholog YAP in a kinase-dependent fashion. Further, HIPK2 promotes YAP abundance, suggesting that the mechanism by which HIPK2 regulates YAP has diverged in mammals.

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A Drosophila RNAi library modulates Hippo pathway-dependent tissue growth

et al. 2016

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Libraries of transgenic Drosophila melanogaster carrying RNA interference (RNAi) constructs have been used extensively to perform large-scale functional genetic screens in vivo. For example, RNAi screens have facilitated the discovery of multiple components of the Hippo pathway, an evolutionarily conserved growth-regulatory network. Here we investigate an important technical limitation with the widely used VDRC KK RNAi collection. We find that approximately 25% of VDRC KK RNAi lines cause false-positive enhancement of the Hippo pathway, owing to ectopic expression of the Tiptop transcription factor. Of relevance to the broader Drosophila community, ectopic tiptop (tio) expression can also cause organ malformations and mask phenotypes such as organ overgrowth. To enhance the use of the VDRC KK RNAi library, we have generated a D. melanogaster strain that will allow researchers to test, in a single cross, whether their genetic screen of interest will be affected by ectopic tio expression.

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Samuel A. Manning

Root canal anatomy of mandibular second molars. Part I

An in vivo large-scale chemical screening platform using Drosophila for anti-cancer drug discovery

Homeodomain-Interacting Protein Kinase Regulates Hippo Pathway-Dependent Tissue Growth

A Drosophila RNAi library modulates Hippo pathway-dependent tissue growth

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