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Permanent URI for this collectionhttps://hdl.handle.net/20.500.14288/6
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Publication Open Access Multifunctional alginate-based hydrogel with reversible crosslinking for controlled therapeutics delivery(Elsevier, 2020) Ekinci, Duygu; N/A; Department of Chemical and Biological Engineering; Batool, Syeda Rubab; Nazeer, Muhammad Anwaar; Kızılel, Seda; Şahin, Afsun; PhD Student; Faculty Member; Faculty Member; Department of Chemical and Biological Engineering; Koç University Research Center for Translational Medicine (KUTTAM) / Koç Üniversitesi Translasyonel Tıp Araştırma Merkezi (KUTTAM); Graduate School of Sciences and Engineering; College of Engineering; School of Medicine; N/A; N/A; 28376; 171267Glycan-based alginate hydrogels have great potential in creating new vehicles with responsive behavior and tunable properties for biomedicine. However, precise control and tunability in properties present major barrier for clinical translation of these materials. Here, we report the synthesis of pH responsive anthracene modified glycan-based hydrogels for selective release of therapeutic molecules. Hydrogels were crosslinked through simultaneous photopolymerization of vinyl groups and photodimerization of anthracene. Incorporation of anthracene into these gels leads to reversible control on crosslinking and transition between gel/sol states through dimerization/dedimerization of anthracene groups. Chemotherapeutic drug doxorubicin-loaded hydrogels were then tested in a cancer mimetic microenvironment where 85% of the drug was released from anthracene-conjugated hydrogels at pH 2 for 6 days. Control on gelation with anthracene incorporation was observed through alterations in modulus, where storage modulus was increased two-fold with anthracene conjugation during photopolymerization and photodimerization. Furthermore, cell survival analysis revealed that anthracene conjugation could selectively compromise cancer cell viability without inducing significant toxicity on healthy fibroblasts. This study combines light-induced control of crosslink density due to anthracene and pH-triggered therapeutics delivery with alginate. The approach would be applicable for systems where multiple control is required with high precision.Publication Open Access TRMU-related transient liver failure of infancy presents with microcephaly and neurodevelopmental delay(Nature Publishing Group (NPG), 2019) N/A; N/A; Azaklı, Hülya; Börklü Yücel, Esra; Arıkan, Çiğdem; Armutlu, Ayşe; Eraslan, Serpil; Kayserili, Hülya; PhD Student; Faculty Member; Teaching Faculty; Researcher; Graduate School of Health Sciences; School of Medicine; N/A; N/A; N/A; N/A; N/A; 7945Publication Open Access HotRegion: a database of predicted hot spot clusters(Oxford University Press (OUP), 2012) N/A; Department of Computer Engineering; Department of Chemical and Biological Engineering; Çukuroğlu, Engin; Gürsoy, Attila; Keskin, Özlem; PhD Student; Faculty Member; Department of Computer Engineering; Department of Chemical and Biological Engineering; Graduate School of Sciences and Engineering; College of Engineering; N/A; 8745; 26605Hot spots are energetically important residues at protein interfaces and they are not randomly distributed across the interface but rather clustered. These clustered hot spots form hot regions. Hot regions are important for the stability of protein complexes, as well as providing specificity to binding sites. We propose a database called HotRegion, which provides the hot region information of the interfaces by using predicted hot spot residues, and structural properties of these interface residues such as pair potentials of interface residues, accessible surface area (ASA) and relative ASA values of interface residues of both monomer and complex forms of proteins. Also, the 3D visualization of the interface and interactions among hot spot residues are provided.Publication Open Access European recommendations integrating genetic testing into multidisciplinary management of sudden cardiac death(Nature Publishing Group (NPG), 2019) Fellmann, Florence; van El, Carla G.; Charron, Philippe; Michaud, Katarzyna; Howard, Heidi C.; Boers, Sarah N.; Clarke, Angus J.; Duguet, Anne-Marie; Forzano, Francesca; Kauferstein, Silke; Lucassen, Anneke; Mendes, Alvaro; Patch, Christine; Radojkovic, Dragica; Rial-Sebbag, Emmanuelle; Sheppard, Mary N.; Tasse, Anne-Marie; Temel, Şehime G.; Sajantila, Antti; Basso, Cristina; Wilde, Arthur A. M.; Cornel, Martina C.; Benjamin, Caroline; Borry, Pascal; Clarke, Angus; Cordier, Christophe; Cornel, Martina; European Society of Human Genetics; European Council of Legal Medicine; European Society of Cardiology working group; European Reference Network for rare, low prevalence and complex diseases of the heart (ERN GUARD-Heart); Association for European Cardiovascular Pathology; N/A; Kayserili, Hülya; Faculty Member; School of Medicine; 7945Sudden cardiac death (SCD) accounts for 10-20% of total mortality, i.e., one in five individuals will eventually die suddenly. Given the substantial genetic component of SCD in younger cases, postmortem genetic testing may be particularly useful in elucidating etiological factors in the cause of death in this subset. The identification of genes responsible for inherited cardiac diseases have led to the organization of cardiogenetic consultations in many countries worldwide. Expert recommendations are available, emphasizing the importance of genetic testing and appropriate information provision of affected individuals, as well as their relatives. However, the context of postmortem genetic testing raises some particular ethical, legal, and practical (including economic or financial) challenges. The Public and Professional Policy Committee of the European Society of Human Genetics (ESHG), together with international experts, developed recommendations on management of SCD after a workshop sponsored by the Brocher Foundation and ESHG in November 2016. These recommendations have been endorsed by the ESHG Board, the European Council of Legal Medicine, the European Society of Cardiology working group on myocardial and pericardial diseases, the ERN GUARD-HEART, and the Association for European Cardiovascular Pathology. They emphasize the importance of increasing the proportion of both medical and medicolegal autopsies and educating the professionals. Multidisciplinary collaboration is of utmost importance. Public funding should be allocated to reach these goals and allow public health evaluation.Publication Open Access Pancreas-specific activation of mTOR and loss of p53 induce tumors reminiscent of acinar cell carcinoma(BioMed Central, 2016) Kong, Bo; Cheng Tao; Qian, Chengjia; Wu, Weiwei; Steiger, Katja; Cao, Jing; Schlitter, Anna Melissa; Regel, Ivonne; Raulefs, Susanne; Friess, Helmut; Esposito, Irene; Kleeff, Joerg; Michalski, Christoph W.; N/A; Erkan, Murat Mert; Faculty Member; School of Medicine; 214689Background: Pancreatic acinar cell carcinoma (ACC) is a rare tumor entity with an unfavorable prognosis. Recent whole-exome sequencing identified p53 mutations in a subset of human ACC. Activation of the mammalian target of rapamycin (mTOR) pathway is associated with various pancreatic neoplasms. We thus aimed at analyzing whether activation of mTOR with a concomitant loss of p53 may initiate ACC. Methods: We generated transgenic mouse models in which mTOR was hyperactivated through pancreas-specific, homozygous tuberous sclerosis 1 (Tsc1) deficiency, with or without deletion of p53 (Tsc1(-/-) and Tsc1(-/-); p53(-/-)). Activity of mTOR signaling was investigated using mouse tissues and isolated murine cell lines. Human ACC specimens were used to corroborate the findings from the transgenic mouse models. Results: Hyperactive mTOR signaling in Tsc1(-/-) mice was not oncogenic but rather induced a near-complete loss of the pancreatic acinar compartment. Acinar cells were lost as a result of apoptosis which was associated with p53 activation. Concomitantly, ductal cells were enriched. Ablation of p53 in Tsc1-deficient mice prevented acinar cell death but promoted formation of acinar cells with severe nuclear abnormalities. One out of seven Tsc1(-/-); p53(-/-) animals developed pancreatic tumors showing a distinctive tumor morphology, reminiscent of human ACC. Hyperactive mTOR signaling was also detected in a subset of human ACC. Conclusion: Hyperactive mTOR signaling combined with loss of p53 in mice induces tumors similar to human ACC.Publication Open Access An efficient framework to identify key miRNA-mRNA regulatory modules in cancer(Oxford University Press (OUP), 2020) N/A; Department of Industrial Engineering; Mokhtaridoost, Milad; Gönen, Mehmet; Faculty Member; Department of Industrial Engineering; Graduate School of Sciences and Engineering; College of Engineering; School of MedicineMotivation: micro-RNAs (miRNAs) are known as the important components of RNA silencing and post-transcriptional gene regulation, and they interact with messenger RNAs (mRNAs) either by degradation or by translational repression. miRNA alterations have a significant impact on the formation and progression of human cancers. Accordingly, it is important to establish computational methods with high predictive performance to identify cancer-specific miRNA-mRNA regulatory modules. Results: we presented a two-step framework to model miRNA-mRNA relationships and identify cancer-specific modules between miRNAs and mRNAs from their matched expression profiles of more than 9000 primary tumors. We first estimated the regulatory matrix between miRNA and mRNA expression profiles by solving multiple linear programming problems. We then formulated a unified regularized factor regression (RFR) model that simultaneously estimates the effective number of modules (i.e. latent factors) and extracts modules by decomposing regulatory matrix into two low-rank matrices. Our RFR model groups correlated miRNAs together and correlated mRNAs together, and also controls sparsity levels of both matrices. These attributes lead to interpretable results with high predictive performance. We applied our method on a very comprehensive data collection by including 32 TCGA cancer types. To find the biological relevance of our approach, we performed functional gene set enrichment and survival analyses. A large portion of the identified modules are significantly enriched in Hallmark, PID and KEGG pathways/gene sets. To validate the identified modules, we also performed literature validation as well as validation using experimentally supportedmiRTarBase database.Publication Open Access Bidirectional optical neuromodulation using capacitive charge-transfer(The Optical Society (OSA) Publishing, 2020) Department of Electrical and Electronics Engineering; N/A; Department of Chemical and Biological Engineering; Department of Molecular Biology and Genetics; Melikov, Rustamzhon; Srivastava, Shashi Bhushan; Karatüm, Onuralp; Nizamoğlu, Sedat; Doğru-Yüksel, Itır Bakış; Dikbaş, Uğur Meriç; Kavaklı, İbrahim Halil; PhD Student; Researcher; PhD Student; Faculty Member; Master Student; Faculty Member; Department of Electrical and Electronics Engineering; Department of Chemical and Biological Engineering; Department of Molecular Biology and Genetics; Graduate School of Sciences and Engineering; College of Engineering; College of Sciences; N/A; N/A; N/A; 130295; N/A; N/A; 40319Artificial control of neural activity allows for understanding complex neural networks and improving therapy of neurological disorders. Here, we demonstrate that utilization of photovoltaic biointerfaces combined with light waveform shaping can generate safe capacitive currents for bidirectional modulation of neurons. The differential photoresponse of the biointerface due to double layer capacitance facilitates the direction control of capacitive currents depending on the slope of light intensity. Moreover, the strength of capacitive currents is controlled by changing the rise and fall time slope of light intensity. This approach allows for high-level control of the hyperpolarization and depolarization of membrane potential at single-cell level. Our results pave the way toward advanced bioelectronic functionalities for wireless and safe control of neural activity.Publication Open Access Impact of the butylparaben on the glutathione-dependent enzyme metabolism(Wiley, 2019) Öztaşçı, Burcu; Barlas, Nurhayat; N/A; Aydemir, Duygu; Ulusu, Nuriye Nuray; PhD Student; Faculty Member; School of Medicine; N/A; 6807Publication Open Access Predicting most probable conformations of a given peptide sequence in the random coil state(Royal Society of Chemistry (RSC), 2012) N/A; Department of Chemical and Biological Engineering; Bayrak, Çiğdem Sevim; Erman, Burak; Faculty Member; Department of Chemical and Biological Engineering; Graduate School of Sciences and Engineering; College of Engineering; N/A; 179997In this work, we present a computational scheme for finding high probability conformations of peptides. The scheme calculates the probability of a given conformation of the given peptide sequence using the probability distribution of torsion states. Dependence of the states of a residue on the states of its first neighbors along the chain is considered. Prior probabilities of torsion states are obtained from a coil library. Posterior probabilities are calculated by the matrix multiplication Rotational Isomeric States Model of polymer theory. The conformation of a peptide with highest probability is determined by using a hidden Markov model Viterbi algorithm. First, the probability distribution of the torsion states of the residues is obtained. Using the highest probability torsion state, one can generate, step by step, states with lower probabilities. To validate the method, the highest probability state of residues in a given sequence is calculated and compared with probabilities obtained from the Coil Databank. Predictions based on the method are 32% better than predictions based on the most probable states of residues. The ensemble of ""n'' high probability conformations of a given protein is also determined using the Viterbi algorithm with multistep backtracking.Publication Open Access SMCHD1 is involved in de novo methylation of the DUX4-encoding D4Z4 macrosatellite(Oxford University Press (OUP), 2019) Dion, Camille; Roche, Stephane; Laberthonniere, Camille; Broucqsault, Natacha; Mariot, Virginie; Xue, Shifeng; Gurzau, Alexandra D.; Nowak, Agnieszka; Gordon, Christopher T.; Gaillard, Marie-Cecile; El-Yazidi, Claire; Thomas, Morgane; Schlupp-Robaglia, Andree; Missirian, Chantal; Malan, Valerie; Ratbi, Liham; Sefiani, Abdelaziz; Wollnik, Bernd; Binetruy, Bernard; Campana, Emmanuelle Salort; Attarian, Shahram; Bernard, Rafaelle; Nguyen, Karine; Amie, Jeanne; Dumonceaux, Julie; Murphy, James M.; Dejardin, Jerome; Blewitt, Marnie E.; Robin, Jerome D.; Magdinier, Frederique; N/A; Reversade, Bruno; Faculty Member; School of MedicineThe DNA methylation epigenetic signature is a key determinant during development. Rules governing its establishment and maintenance remain elusive especially at repetitive sequences, which account for the majority of methylated CGs. DNA methylation is altered in a number of diseases including those linked to mutations in factors that modify chromatin. Among them, SMCHD1 (Structural Maintenance of Chromosomes Hinge Domain Containing 1) has been of major interest following identification of germline mutations in Facio-Scapulo-Humeral Dystrophy (FSHD) and in an unrelated developmental disorder, Bosma Arhinia Microphthalmia Syndrome (BAMS). By investigating why germline SMCHD1 mutations lead to these two different diseases, we uncovered a role for this factor in de novo methylation at the pluripotent stage. SMCHD1 is required for the dynamic methylation of the D4Z4 macrosatellite upon reprogramming but seems dispensable for methylation maintenance. We find that FSHD and BAMS patient's cells carrying SMCHD1 mutations are both permissive for DUX4 expression, a transcription factor whose regulation has been proposed as the main trigger for FSHD. These findings open new questions as to what is the true aetiology for FSHD, the epigenetic events associated with the disease thus calling the current model into question and opening new perspectives for understanding repetitive DNA sequences regulation.