Described herein are antifungal peptoids, the development and characterization of the antifungal peptoids, methods of making the antifungal peptoids, and methods of using the antifungal peptoids. In some embodiments, the antifungal peptoids may be administered to a subject infected with or at risk of being infected with pathogenic fungi including, for example Cryptococcus spp. In some embodiments, the Cryptococcus spp. may include C. neoformans or C. gattii or both.

This disclosure describes compounds of Formula (I), stereoisomers, side compounds thereof, pharmaceutical compositions and methods of manufacturing such compounds, using silylation reagents and producing compositions and products made using such methods. More particularly, this disclosure describes manufacture of trofinetide and side products, compositions and products containing such compounds, for pharmaceutical uses to treat neurodegenerative or neurodevelopmental disorders. ##STR00001##

A piezoelectric transducer is provided herein, comprising a three-dimensional structure made of a plurality of peptides, the peptides being self-assembling and the structure being piezoelectric, wherein at least a portion, or each, of said plurality of peptides comprises peptides of 2 to 10 amino acid residues, provided that the plurality of peptides is not consisted of a plurality of Phe-Phe dipeptides. Further described herein are peptides having an amino acid sequence Hyp-Phe-Phe, Boc-Dip-Dip, (L)Trp-(D)Trp or (D)Trp-(L)Trp, as well as three-dimensional structures comprising such peptides.

Provided are a tripeptide compound, a preparation method therefor, and an application thereof. The structure of the related compound is represented by formula (I). The provided compound has angiotensin converting enzyme inhibiting bioactivity, and the compound and a pharmaceutical composition thereof play a role in preventing and treating hypertension and other cardiocerebral vascular system diseases.

It is provided an achiral, non-nucleosidic backbone for phosphoramidites that can be inserted with high yields in nucleic acid strands and sequence-controlled oligo(phosphodiester)s through solid phase synthesis (SPS) using a DNA synthesizer. From this backbone, platforms with useful chemical handles were synthesized, further functionalized, transformed into phosphoramidites and attached to nucleic acid strands and sequence-controlled oligo(phosphodiester)s. The backbone is based on a tertiary amine with a 3-6 carbon spacer between the central nitrogen and the two external hydroxyls. The spacer has been optimized to increase coupling yields and stability.

A cryopreservation solution contains 0.01-50.0 g of bionic ice control materials, 5.0-30 mL of polyols, 1-30 g of water-soluble sugar, and 0-30 mL of serum, and a buffer in every 100 mL of the cryopreservation solution. It does not contain DMSO. When being used for the cryopreservation of mouse oocytes and embryos, the solution may achieve the same or an even higher cell and tissue survival rate and functional expression stability as or than a commercial cryopreservation solution (containing 15% DMSO), and has high preservation efficiency. The cryopreservation solution without DMSO or serum reduces parasitic biological contaminants in the commercial cryopreservation solution containing serum currently used in clinical practice.

The present invention relates to a compound of formula (I), wherein X is C═O, C═S or B—OH; Y is an electrophile and Z is a leaving group, or Y═Z is an electrophile; R.sup.1 comprises or consists of (a) (i) a first group binding to a proteolytic site of a proteasome, the first group being bound to X; and (ii) optionally a second group enhancing delivery; or (b) a group binding between subunits β1 and β2 of a proteasome; R.sup.2 and R.sup.3 are independently selected from H, methyl, methoxy, ethyl, ethenyl, ethynyl and cyano, wherein methyl and ethyl may be substituted with OH or halogen. ##STR00001##

The present invention relates to series of compounds as an inhibitor targeting Proliferating Cell Nuclear Antigen (PCNA). Pharmaceutical compositions of those compounds and methods of using them in the treatment of cancer are within the scope of this disclosure.

The present application relates to a method of inducing differentiation of stem cells into chondrocytes using an oligopeptide, and a pharmaceutical composition for treating cartilage injury disease containing differentiated chondrocytes obtained by the method.

The present invention is to provide a method for producing a peptide containing an N-alkylamino acid, which comprises the following Steps (1) to (3). Step (1): a step of mixing an N-terminal protected amino acid or an N-terminal protected peptide with a carboxylic acid halide or a halogenated alkyl formate; Step (2): a step of mixing an amino acid or a peptide in which the N-terminal and the C-terminal are not protected with a trialkylsilylating agent; and Step (3): a step of mixing the product obtained in Step (1) with the product obtained in Step (2).