Literacy Transformation Through The Common Core: Finding our Heartbeat

For over a decade reading mandates have caused reading to be taught as its own subject, isolated from the other language arts, often in place of writing, content area learning, and arts integration. With the adoption and implementation of the Common Core State Standards (2010) there is potential for literacy teachers to rethink the curriculum used, methods of instruction, and how to provide individual and diverse learners with meaningful opportunities to use literacy to learn. If teachers take ownership and follow their expertise they can implement a more truly comprehensive and integrated learning experience that would prepare students for lifelong learning that uses literacy to learn content knowledge, sciences, math, art and music

A Study on the Cellular Localization of Factors Involved in Yeast Nonsense-Mediated mRNA Decay and their Mechanisms of Control on Nonsense mRNA Translation: a Dissertation

Nonsense-mediated mRNA decay (NMD) is an important mRNA surveillance mechanism conserved in eukaryotes. This thesis explores several interesting aspects of the NMD pathway. One important aspect of NMD which is presently the subject of intense controversy is the subcellular localization of NMD. In one set of experiments, the decay kinetics of the ade2-1 and pgk1 nonsense mRNAs (substrates for NMD) were investigated in response to activating the NMD pathway to determine if cytoplasmic nonsense mRNAs are immune to NMD in the yeast system. The results of these studies demonstrated that activation of NMD caused rapid and immediate degradation of both the ade2-1 and the early nonsense pgk1 steady state mRNA populations. The half lives of the steady state mRNA populations for both ade2-1 and pgk1 (early nonsense) were shortened from \u3e30 minutes to approximately 7 minutes. This was not observed for pgk1mRNAs that contained a late nonsense codon demonstrating that activation of NMD specifically targeted the proper substrates in these experiments. Therefore, in yeast, nonsense mRNAs residing in the cytoplasm are susceptible to NMD. While these findings are consistent with NMD occurring in the cytoplasm, they do not completely rule out the possibility of a nuclear-associated decay mechanism. To investigate the involvement of the nucleus in NMD, the putative nuclear targeting sequence identified in Nmd2p (one of the trans-acting factors essential for NMD) was characterized. Subcellular fractionation experiments demonstrated that the majority of Nmd2p localized to the cytoplasm with a small proportion detected in the nucleus. Specific mutations in the putative nuclear localization signal (NLS) of Nmd2p were found to have adverse effects on the protein\u27s decay function. These effects on decay function, however, could not be attributed to a failure in nuclear localization. Therefore, the residues that comprise the putative NLS of Nmd2p are important for decay function but do not appear to be required for targeting the protein to the nucleus. These results are in accordance with the findings above which implicate the cytoplasm as an important cellular compartment for NMD. This thesis then investigates the regulatory roles of the trans-acting factors involved in NMD (Upf1p, Nmd2p, and Upf3p) using a novel quantitative assay for translational suppression, based on a nonsense allele of the CAN1 gene (can1-100). Deletion of UPF1, NMD2, or UPF3 stabilized the can1-100 transcript and promoted can1-100 nonsense suppression. Changes in mRNA levels were not the basis of suppression, however, since deletion of DCP1 or XRN1 or high-copy can1-100 expression in wild-type cells caused mRNA stabilization similar to that obtained in upf/nmd cells but did not result in comparable suppression. can1-100 suppression was highest in cells harboring a deletion of UPF1, and overexpression of UPF1 in cells with individual or multiple upf/nmd mutations lowered the level of nonsense suppression without affecting the abundance of the can1-100 mRNA. These findings indicate that Nmd2p and Upf3p regulate Upf1p activity and that Upf1p plays a critical role in promoting termination fidelity that is independent of its role in regulating mRNA decay

Long 3′-UTRs target wild-type mRNAs for nonsense-mediated mRNA decay in Saccharomyces cerevisiae

The nonsense-mediated mRNA decay (NMD) pathway, present in most eukaryotic cells, is a specialized pathway that leads to the recognition and rapid degradation of mRNAs with premature termination codons and, importantly, some wild-type mRNAs. Earlier studies demonstrated that aberrant mRNAs with artificially extended 3′-untranslated regions (3′-UTRs) are degraded by NMD. However, the extent to which wild-type mRNAs with long 3′-UTRs are degraded by NMD is not known. We used a global approach to identify wild-type mRNAs in Saccharomyces cerevisiae that have longer than expected 3′-UTRs, and of these mRNAs tested, 91% were degraded by NMD. We demonstrate for the first time that replacement of the natural, long 3′-UTR from wild-type PGA1 mRNA, which encodes a protein that is important for cell wall biosynthesis, with a short 3′-UTR renders it immune to NMD. The natural PGA1 3′-UTR is sufficient to target a NMD insensitive mRNA for decay by the NMD pathway. Finally, we show that nmd mutants are sensitive to Calcofluor White, which suggests that the regulation of PGA1 and other cell wall biosynthesis proteins by NMD is physiologically significant

Saccharomyces cerevisiae Ebs1p is a putative ortholog of human Smg7 and promotes nonsense-mediated mRNA decay

The Smg proteins Smg5, Smg6 and Smg7 are involved in nonsense-mediated RNA decay (NMD) in metazoans, but no orthologs have been found in the budding yeast Saccharomyces cerevisiae. Sequence alignments reveal that yeast Ebs1p is similar in structure to the human Smg5-7, with highest homology to Smg7. We demonstrate here that Ebs1p is involved in NMD and behaves similarly to human Smg proteins. Indeed, both loss and overexpression of Ebs1p results in stabilization of NMD targets. However, Ebs1-loss in yeast or Smg7-depletion in human cells only partially disrupts NMD and in the latter, Smg7-depletion is partially compensated for by Smg6. Ebs1p physically interacts with the NMD helicase Upf1p and overexpressed Ebs1p leads to recruitment of Upf1p into cytoplasmic P-bodies. Furthermore, Ebs1p localizes to P-bodies upon glucose starvation along with Upf1p. Overall our findings suggest that NMD is more conserved in evolution than previously thought, and that at least one of the Smg5-7 proteins is conserved in budding yeast

A Competition between Stimulators and Antagonists of Upf Complex Recruitment Governs Human Nonsense-Mediated mRNA Decay

The nonsense-mediated decay (NMD) pathway subjects mRNAs with premature termination codons (PTCs) to rapid decay. The conserved Upf1–3 complex interacts with the eukaryotic translation release factors, eRF3 and eRF1, and triggers NMD when translation termination takes place at a PTC. Contrasting models postulate central roles in PTC-recognition for the exon junction complex in mammals versus the cytoplasmic poly(A)-binding protein (PABP) in other eukaryotes. Here we present evidence for a unified model for NMD, in which PTC recognition in human cells is mediated by a competition between 3′ UTR–associated factors that stimulate or antagonize recruitment of the Upf complex to the terminating ribosome. We identify cytoplasmic PABP as a human NMD antagonizing factor, which inhibits the interaction between eRF3 and Upf1 in vitro and prevents NMD in cells when positioned in proximity to the termination codon. Surprisingly, only when an extended 3′ UTR places cytoplasmic PABP distally to the termination codon does a downstream exon junction complex enhance NMD, likely through increasing the affinity of Upf proteins for the 3′ UTR. Interestingly, while an artificial 3′ UTR of >420 nucleotides triggers NMD, a large subset of human mRNAs contain longer 3′ UTRs but evade NMD. We speculate that these have evolved to concentrate NMD-inhibiting factors, such as PABP, in spatial proximity of the termination codon

UPF1, a Conserved Nonsense-Mediated mRNA Decay Factor, Regulates Cyst Wall Protein Transcripts in Giardia lamblia

The Giardia lamblia cyst wall is required for survival outside the host and infection. Three cyst wall protein (cwp) genes identified to date are highly up-regulated during encystation. However, little is known of the molecular mechanisms governing their gene regulation. Messenger RNAs containing premature stop codons are rapidly degraded by a nonsense-mediated mRNA decay (NMD) system to avoid production of non-functional proteins. In addition to RNA surveillance, NMD also regulates thousands of naturally occurring transcripts through a variety of mechanisms. It is interesting to know the NMD pathway in the primitive eukaryotes. Previously, we have found that the giardial homologue of a conserved NMD factor, UPF1, may be functionally conserved and involved in NMD and in preventing nonsense suppression. In this study, we tested the hypothesis that NMD factors can regulate some naturally occurring transcripts in G. lamblia. We found that overexpression of UPF1 resulted in a significant decrease of the levels of CWP1 and cyst formation and of the endogenous cwp1-3, and myb2 mRNA levels and stability. This indicates that NMD could contribute to the regulation of the cwp1-3 and myb2 transcripts, which are key to G. lamblia differentiation into cyst. Interestingly, we also found that UPF1 may be involved in regulation of eight other endogenous genes, including up-regulation of the translation elongation factor gene, whose product increases translation which is required for NMD. Our results indicate that NMD factor could contribute to the regulation of not only nonsense containing mRNAs, but also mRNAs of the key encystation-induced genes and other endogenous genes in the early-diverging eukaryote, G. lamblia

Patients with artificial joints: do they need antibiotic cover for dental treatment?

The document attached has been archived with permission from the Australian Dental Association. An external link to the publisher’s copy is included.This study reviews whether patients with artificial joints need antibiotic cover for dental treatment. Generally in Australia the practice has developed of giving most patients with artificial joints antibiotic prophylaxis for a wide range of dental procedures. This is partly on anecdotal grounds, partly historical and partly for legal concerns. It has been encouraged by some guidelines. Scientifically, the risk and the benefit of each step in the process needs to be analysed. This review shows that the risk of an artificial joint becoming infected from a bacteraemia of oral origin is exceedingly low whereas the risk of an adverse reaction to the antibiotic prophylaxis is higher than the risk of infection. If all patients with artificial joints receive antibiotic prophylaxis then more will die from anaphylaxis than develop infections. Factors which balance the risk benefit are if the patient is seriously immunocompromised, if the joint prosthesis is failing or chronically inflamed and if the dental procedures, such as from extractions and deep periodontal scaling, produce high level bacteraemias. Recommendations to rationalize antibiotic prophylaxis for patients with artificial joints are presented.JF Scott, D Morgan, M Avent, S Graves and AN Gos

Should patients with hip joint prosthesis receive antibiotic prophylaxis before dental treatment?

The safety committee of the American Academy of Orthopedic Surgeons (AAOS) recommended in 2009 that clinicians should consider antibiotic prophylaxis for all patients with total joint replacement before any invasive procedure that may cause bacteremia. This has aroused confusion and anger among dentists asking for the evidence. The present review deals with different aspects of the rationale for this recommendation giving attention to views both in favor of and against it

Increasing Cultural Competency of the Perioperative Team Caring for Transgender Patients

Purpose: The objective of this quality improvement (QI) initiative is to increase clinical proficiency of perioperative Registered Nurses (RNs) and Certified Registered Nurse Anesthesiologists (CRNAs) in delivering healthcare services to transgender patients. The main goal is to develop and assess a tailored online educational module that targets deficiencies in transgender cultural competence and clinical preparedness in a perioperative environment.Background: Formalized training for perioperative RNs and CRNAs is still limited, despite growing recognition of transgender healthcare requirements. This project acknowledges necessity of patient-centered interventions, considering distinct difficulties and factors involved in providing treatment for transgender patients. This project relies on a thorough analysis of existing studies, showing deficiencies in present methods and emphasizing the need for specialized cultural competency training. Methods: This project utilized the pretest and posttest methods to assess outcomes of cultural care competency training module accessed through Prezi. The assessment technique used was Lesbian, Gay, Bisexual, and Transgender Development of Clinical Skills Scale (LGBT-DOCSS) questionnaire. Total of 14 participants, including registered nurses (RNs) and certified registered nurse anesthesiologists (CRNAs), were involved in intervention. This allowed for a thorough examination of clinical readiness, awareness of attitudes, and fundamental knowledge both before and after training module. Results: An examination of pretest and posttest scores showed statistically significant (P = 0.002) enhancement in cultural care proficiency among perioperative Registered Nurses (RNs) and Certified Registered Nurse Anesthesiologists (CRNAs) after administration of care competency training module. Statistically significant differences on pretest and posttest mean scores indicate beneficial outcomes on participants' preparedness for clinical practice, understanding of attitudes, and knowledge related to caring for transgender patients. Data analysis included demographic data such as healthcare role, age, gender identity, sexual orientation, education, and years of service. Conclusions: Effective implementation of online education module represents crucial advancement in improving clinical proficiency of perioperative Registered Nurses (RNs) and Certified Registered Nurse Anesthesiologists (CRNAs) in providing care for transgender patients. Project’s sustainability plan promotes consistent cooperation with hospital site, guaranteeing flexibility and enhancement. Distribution plan involves delivering formal presentations, actively involving hospital leadership, and publishing in academic repositories, intending to provide valuable insights to wider healthcare community