A method for stimulating angiogenesis in a tissue of a mammal comprising contacting tissue with a protein substantially similar to pyruvate kinase M2.

The present invention discloses a bacterium and an obtaining method and application thereof. The bacterium has a property of coproducing 1,3-propanediol and D-lactic acid. Further, the bacterium is Klebsiella oxytoca, including Klebsiella oxytoca PDL-5 CCTCC M 2016185. The obtaining method of the bacterium may be to obtain the bacterium by directly screening wild bacteria that satisfy conditions from the environment or performing gene engineering modification to wild bacteria. The present invention has the advantages that the bacteria can coproduce 1,3-propanediol and D-lactic acid through fermentation, the molar conversion rate and the concentration of the two products are very high, the types of byproducts are few, the concentration is low, the product extraction process is simplified, the high-efficiency biological production of 1,3-propanediol and D-lactic acid can be realized, and the industrial application prospect is very great.

The present application relates to a microorganism of the genus Saccharomyces producing lactic acid and a method for preparing lactic acid using the same. More specifically, the present application relates to a microorganism of the genus Saccharomyces producing lactic acid, wherein the microorganism is modified to weaken or inactivate the activity of pyruvate decarboxylase (PDC) compared to its endogenous activity, to introduce the activity of ATP-citrate lyase (ACL), and to enhance pyruvate biosynthetic pathway compared to its endogenous biosynthetic pathway, and a method for producing lactic acid using the microorganism.

Provided are methods for isolating potent extracellular vesicle or exosome populations from mesenchymal stromal cells, and the use of the isolated extracellular vesicles or exosomes in treating vasculopathy, including pulmonary hypertension, bronchopulmonary dysplasia, and disease and conditions associated with mitochondrial dysfunction.

The present invention provides a method for producing an aromatic compound such as salicylic acid and a derivative thereof with high productivity using a microorganism. The present invention provides: a method for producing a microorganism having a sugar metabolic pathway modified, including suppressing the expression of a gene encoding a phosphotransferase system enzyme of the microorganism, suppressing the expression of a gene encoding pyruvate kinase of the microorganism, and introducing, into the microorganism, one or more genes encoding an enzyme that enables the microorganism to synthesize an aromatic compound from chorismic acid or isochorismic acid; a modified microorganism obtained by the method; and a method for producing an aromatic compound and a derivative thereof, including culturing the microorganism, and recovering an aromatic compound or the like from the culture.

Provided is a method for producing circular DNA in which a region that is sandwiched by a region Ha and a region Hb in circular double-stranded DNA is substituted with the entirety or a portion of a linear-DNA fragment, wherein the region Hb is located downstream of the region Ha in the circular double-stranded DNA; the linear-DNA fragment is single-stranded or double-stranded linear DNA that has a homologous region that corresponds to the region Ha and a homologous region that corresponds to the region Hb, the latter homologous region being positioned downstream of the former homologous region; and the method comprising: preparing a reaction solution that contains the circular double-stranded DNA, the linear-DNA fragment, and a protein that has RecA-family-recombinase activity, and performing homologous recombination reaction by incubating the reaction solution for a predetermined period of time, thereby producing circular DNA in which the region that is from the region Ha to the region Hb in the circular double-stranded DNA is substituted with the region that is from the homologous region that corresponds to the region Ha to the homologous region that corresponds to the region Hb in the linear-DNA fragment.

A nanoparticle (for example, quantum dot) serves as a substrate for immobilizing enzymes involved in consecutive reactions as a cascade. This results in a significant increase in the rate of catalysis as well as final product yield compared to non-immobilized enzymes.

Nucleic acid agents for reducing or removing infestations of the Varroa destructor mite are described. Compositions comprising the nucleic acid agents and methods for controlling mite infestations using the nucleic acid agents and compositions are also disclosed.

Compositions and methods for diagnosing, predicting risk of and/or treating diabetic nephropathy (DN).

This invention provides a range of translatable messenger UNA (mUNA) molecules. The mUNA molecules can be translated in vitro and in vivo to provide an active polypeptide or protein, or to provide an immunization agent or vaccine component. The mUNA molecules can be used as an active agent to express an active polypeptide or protein in cells or subjects. Among other things, the mUNA molecules are useful in methods for treating rare diseases.