Abstract: The present invention relates to chemical modification motifs for oligonucleotides. The oligonucleotides of the present invention, such as chemically modified antisense oligonucleotides, can have increased in vivo efficacy. The chemically modified oligonucleotides provide advantages in one or more of potency, efficiency of delivery, target specificity, toxicity, and/or stability. The chemically modified oligonucleotides have a specific chemical modification motif or pattern of locked nucleic acids (LNAs). The oligonucleotide (e.g. antisense oligonucleotide) can target RNA, such as miRNA or mRNA. Also provided herein are compositions comprising the chemically modified oligonucleotides and methods of using the chemically modified oligonucleotides as therapeutics for various disorders, including cardiovascular disorders.

Abstract: The present invention relates to polypeptides comprising an amino sequence selected from the group consisting of: SEQ ID NO: 1, and fragments and derivatives of these. The invention also relates to the corresponding nucleic acids vectors, host cells and compositions. The present inventions also relates to the use of said polypeptides, nucleic acids, vectors, host cells and compositions in a method for treatment of the human or animal body by surgery or therapy or in diagnostic methods practiced on the human or animal body, in particular for the treatment or prevention of Gram-negative bacterial infections. The polypeptides, nucleic acids, vectors, host cells and compositions according to the invention may also be used as an antimicrobial in food or feed, or in cosmetics, as disinfecting agent or in the environmental field.

Abstract: The present invention embraces methods for the diagnosis and treatment of learning or mental disorders such as schizophrenia using miR-25, miR-98, or miR-185.

Abstract: The invention provides a peptide comprising: a core amino acid sequence, which is identical or similar to the amino acid sequence of a member of the Cecropin family. The invention further provides a nucleic acid sequence encoding the peptide and a vector comprising said nucleic acid. The invention further provides a pharmaceutical composition comprising said peptide or said nucleic acid. The invention further provides methods of treating an infection, overcoming inherent or acquired resistance of a microorganism to an antibiotic agent or disinfecting a wound, the methods comprises administering the peptide to a subject in need thereof.

Abstract: Clostridium difficile disease involves a range of clinical presentations ranging from mild to self-limiting diarrhea to life-threatening pseudomembranous colitis and megacolon. Cases of C. difficile are treated differently depending on severity of disease. Mild and moderate cases may be treated with metronidazole while moderate-to-severe and relapsing cases are often treated with vancomycin or fidaxomicin. The presence of C. difficile disease is detected using a biomarker panel that includes C. difficile antigen (GDH), toxins A and B, and fecal lactoferrin. In patients suspected of C. difficile disease, if GDH is detected indicating the presence of C. difficile, and then toxins A and/or B are detected to indicate toxigenic C. difficile and support a diagnosis of C. difficile-associated disease, fecal lactoferrin concentrations are measured to determine severity of the disease by indicating the amount of intestinal inflammation.

Abstract: The present invention relates to a new family of cell-penetrating peptides, comprising an amino acid sequence X1LX2RALWRLX3RX4LWRLX5X6X7X8, wherein X1 is beta-A or S, X2 is F or W, X3 is L, W, C or I, X4 is S, A, N or T, X5 is L or W, X6 is W or R, X7 is K or R, and X8 is A or none. These peptides exhibit high efficiency, low toxicity and a natural tropism for lung tissues, and can be used either in simple complex with the cargo to be vectorised, or in nanoparticles comprising two layers of cell-penetrating peptides around the cargo.

Abstract: This disclosure describes non-naturally occurring protein scaffolds and methods of making and using the protein scaffolds. In one aspect, therefore, this disclosure describes a non-naturally occurring protein scaffold that includes a plurality of structural domains and a plurality of loop regions that include an amino acid sequence that varies from a naturally-occurring loop region by at least one amino acid deletion, substitution, or addition. Generally, the structural domain or domains can include at least one ? structure and/or at least one a helix.

Abstract: Disclosed are memory-regulating agents and methods that target actin binding LIM protein family, member 3 (ABLIM3). Specifically, the disclosure provides methods of inhibiting Ablim3 using inhibitory nucleic acids that target the Ablim3 gene or mRNA to improve memory in subjects with memory dysfunction associated with Alzheimer's Disease (AD), normal aging, or posttraumatic stress disorder (PTSD). Further disclosed is a cell-based assay that can be used to screen for small molecule regulators of Ablim3 function.

Abstract: Provided is an siRNA in tandem expression and uses thereof in treating chronic lymphocytic leukemia, and particularly, provided are a method of a tandem expression for siRNA of BTK, and an siRNA in tandem expression and uses thereof in treating chronic lymphocytic leukemia.

Abstract: A cyclic peptide (10) includes two domains (D1,D2), each including three charged sub-domains (14, 16). The first domain (D1) includes two anionic sub-domains (14) followed by a cationic sub-domain (16). The second domain (D2) includes two cationic sub-domains (16) followed by an anionic sub-domain (14). The two domains are connected to one another and separated by a tri-glycyl linker (12). The cyclic peptide (10) is able to self-assemble into a network able to mimic an extracelluar matrix, and which promotes cell growth while resisting biofilm formation.

Abstract: This invention relates generally to the discovery of novel protease-resistant peptide ligands and uses thereof. Specifically, the present invention provides a protease-resistant peptide with three to twenty amino acids capable of binding a biological and comprising one or more basic amino acid(s) and I or aromatic amino acids, wherein one or more of the amino acids is substituted with a non-naturally occurring amino acid analog.

Abstract: A method for producing a seed of a plant resistant to seedling diseases is provided which includes contacting a non-pathogenic microbe corresponding to a seed-borne pathogen with a flower part of a host plant around the flowering time and collecting a seed of the host plant colonized by the non-pathogenic microbe obtained thereafter, and a method for controlling seedling diseases using the seed.

Abstract: Disclosed is a novel process for producing a Muse cell-like cell or a novel method for extending the replicative life span of a cell population. Provided is a process for producing a Muse cell-like cell, comprising the step of inhibiting the expression or function of ELAVL2, TEAD1, or GATAD2B. At this time, siRNA or shRNA may be used to inhibit the expression or function of ELAVL2, TEAD1, or GATAD2B.

Abstract: The present invention, at least in part, relates to the discovery of efficacious delivery of an RNAi agent (in preferred aspects of the invention, an siRNA) to a transplantable tissue. Organ rejection, transplantation-mediated transmission of viral infection, and triggering of apoptosis in transplanted tissues can each be minimized by the methods and compositions of the instant invention. The RNAi agent(s) of the instant invention can be delivered as “naked” molecules, or using liposomal and other modes of delivery, to transplantable tissues. Such delivery can occur via perfusion of the RNAi agent in solution through the vasculature of a whole or partial organ; or tissues including transplantable cells and cell lines may be bathed, injected or otherwise treated with RNAi agents. Preferred transplantable tissues include, for example, pancreas, liver, kidney, heart, lung, and all cells and cell lines derived from such tissues (e.g., pancreatic islet cells that may, e.g.

Abstract: The present disclosure provides compositions for regulating glucose metabolism. The compositions provide for reduced levels of p75NTR and/or reduced binding of p75NTR to a GTPase such as Rab31 or Rab5. The compositions are useful in methods of regulating glucose metabolism, which methods are also provided.

Abstract: The invention relates to a method of diagnosing breast cancer and to the use of biomarkers for the detection and diagnosis of breast cancer.

Abstract: The invention provides a single-stranded nucleic acid capable of inhibiting expression of a target gene having a delivery function. The nucleic acid contains, from the 5?-side to the 3?-side, a 5?-side region (Xc), a linker region (Lx), an inner region (Z), a linker region (Ly) and a 3?-side region (Yc) in this order, wherein the inner region (Z) is constituted by linkage of the inner 5?-side region (X) and the inner 3?-side region (Y), the 5?-side region (Xc) is complementary to the inner 5?-side region (X), the 3?-side region (Yc) is complementary to the inner 3?-side region (Y), at least one of the inner region (Z), the 5?-side region (Xc) and the 3?-side region (Yc) comprises an expression inhibitory sequence that inhibits expression of a target gene, and at least one of the 5?-terminus, the 3?-terminus, the linker region (Lx) and the linker region (Ly) is bound to a bio-related substance.

Abstract: The present invention relates to an avian influenza virus miRNA and the identification, detection and application thereof. In particular, a kind of specific microRNA, miR-HA-3p, is screened for the first time through detecting the microRNA expression levels in samples of animals with avian influenza. The experiments prove that the miR-HA-3p, as a microRNA marker, can be very effective in detecting avian influenza virus and avian influenza. Furthermore, inhibiting the function of miR-HA-3p can be very effective in relieving symptoms of avian influenza and treating avian influenza. The microRNA revealed in the present invention for the first time can be developed into a detection agent and a therapeutic agent as well as the corresponding kits for the detection and treatment of avian influenza (e.g., H5N1).

Abstract: The field of the invention is the analysis of target microorganisms in a complex sample. The present invention more particularly relates to a culture medium for the detection of at least one target microorganism including: at least one natural or synthetic fermentation or enzymatic activity substrate, and at least one selective agent, which inhibits non-target microorganisms, constituted by para-amino benzoic acid, one of its derivatives or one of their salts, at a concentration of between 0.05 and 1 g/L.

Abstract: Described are methods for efficiently down regulating the expression of a gene of interest in a cell by use of a modified rodent parvovirus that contains an expressible target specific nucleic acid, preferably an shRNA expression cassette. Also described are cells or organisms comprising said parvovirus.