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Silk and silk derivatives have emerged as a possible alternative in surgical device development, offering mechanical strength, biocompatibility, and environmental sustainability. Through a systematic review following PRISMA guidelines, this study evaluated silk fibroin's application across pre-clinical and clinical settings, focusing on its role as screws and plates for osteofixation. A comprehensive search yielded 245 studies, with 33 subjected to full-text review and 15 ultimately included for qualitative analysis. The findings underscore silk fibroin's superior properties, including its tunable degradation rates and ability to be functionalized with therapeutic agents. In vivo and in vitro studies demonstrated its efficacy in enhancing bone healing, offering improved outcomes in osteofixation, particularly for craniofacial defects. Silk fibroin's remarkable attributes in biodegradation and drug release capabilities underscore its potential to enhance patient care. Ultimately, silk fibroin's integration into surgical practices promises a revolution in patient outcomes and environmental sustainability. Its versatility, coupled with the continuous progress in fabrication techniques, signals a promising horizon for its widespread acceptance in the medical field, potentially establishing a new benchmark in surgical treatment. Further research is expected to solidify the transition of silk products from basic science to patient care, paving the way for widespread use in various surgical applications.
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Protein translation is orchestrated through tRNA aminoacylation and ribosomal elongation. Among the highly conserved structure of tRNAs, they have distinguishing features which promote interaction with their cognate aminoacyl tRNA synthetase (aaRS). These key features are referred to as identity elements. In our study, we investigated the tRNA:aaRS pair that installs the 22nd amino acid, pyrrolysine (tRNAPyl:PylRS). Pyrrolysyl-tRNA synthetases (PylRSs) are naturally encoded in some archaeal and bacterial genomes to acylate tRNAPyl with pyrrolysine. Their large amino acid binding pocket and poor recognition of the tRNA anticodon have been instrumental in incorporating >200 noncanonical amino acids. PylRS enzymes can be divided into three classes based on their genomic structure. Two classes contain both an N-terminal and C-terminal domain, however the third class (ΔpylSn) lacks the N-terminal domain. In this study we explored the tRNA identity elements for a ΔpylSn tRNAPyl from Candidatus Methanomethylophilus alvus which drives the orthogonality seen with its cognate PylRS (MaPylRS). From aminoacylation and translation assays we identified five key elements in ΔpylSn tRNAPyl necessary for MaPylRS activity. The absence of a base (position 8) and a G-U wobble pair (G28:U42) were found to affect the high-resolution structure of the tRNA, while molecular dynamic simulations led us to acknowledge the rigidity imparted from the G-C base pairs (G3:C70 and G5:C68).
Enzymes known as PylRS offer the remarkable ability to expand the natural genetic code of a living cell with unnatural amino acids. Currently, over 200 unnatural amino acids can be genetically encoded with the help of PylRS and its partner tRNAPyl, enabling us to endow proteins with novel properties, or regulate protein activity using light or inducible cross-linking. One intriguing feature of PylRS enzymes is their ability to avoid cross-reactivity when two PylRS homologs from different organisms-such as those from the archaea Methanosarcina mazei and Methanomethylophilus alvus-are co-expressed in a single cell. This makes it possible to simultaneously encode two unnatural amino acids in a single protein. This study illuminates the elusive mechanism of PylRS specificity by using cryo-electron microscopy, biochemistry and molecular simulations. The interaction of PylRS from M. alvus with its tRNAPyl is best described as two pieces of a jigsaw puzzle; in which PylRS recognizes the unique shape of its cognate tRNA instead of specific nucleotides in the tRNA sequence like other tRNA-binding enzymes. This finding may streamline the rational design of tools for simultaneous genetic incorporation of multiple unnatural amino acids, thereby facilitating the development of valuable proteins for research, medicine, and biotechnology.
Assuntos
Aminoacil-tRNA Sintetases , Archaea , Microbioma Gastrointestinal , Humanos , Aminoácidos/metabolismo , Aminoacil-tRNA Sintetases/isolamento & purificação , Aminoacil-tRNA Sintetases/metabolismo , Archaea/enzimologia , RNA de Transferência/química , RNA de Transferência/metabolismo , Aminoacilação de RNA de TransferênciaRESUMO
Hydrogen is a clean, renewable energy source, that when combined with oxygen, produces heat and electricity with only water vapor as a biproduct. Furthermore, it has the highest energy content by weight of all known fuels. As a result, various strategies have engineered methods to produce hydrogen efficiently and in quantities that are of interest to the economy. To approach the notion of producing hydrogen from a biological perspective, we take our attention to hydrogenases which are naturally produced in microbes. These organisms have the machinery to produce hydrogen, which when cleverly engineered, could be useful in cell factories resulting in large production of hydrogen. Not all hydrogenases are efficient at hydrogen production, and those that are, tend to be oxygen sensitive. Therefore, we provide a new perspective on introducing selenocysteine, a highly reactive proteinogenic amino acid, as a strategy towards engineering hydrogenases with enhanced hydrogen production, or increased oxygen tolerance.
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Family caregivers of Black older adults with dementia are at risk for cognitive decline and premature death. Reducing this risk and filling the void of culturally responsive interventions for caregivers requires the development of participant informed models of care that promote group strengths such as effective coping. In this pilot study, Black family caregivers (n=30) completed a survey comprised of a demographic questionnaire, various measures of function, self-efficacy, social support, and coping. Study findings point to a well-educated population with underlying health concerns such as obesity, hypertension, and diabetes that may be complicated by caregiving stress. Common coping strategies used by participants included spiritual coping (80%), use of past experiences (80%), and information gathering (75%). Clinicians can support dementia family caregivers by promoting spiritual coping and self-care, as well as providing reference resources about respite and managing challenging behaviors. Power analysis suggests a future sample size of 385.