To provide a chiral reagent or a salt thereof. The chiral reagent has following chemical formula (I). In the formula (I), G.sup.1 and G.sup.2 are independently a hydrogen atom, a nitro group (—NO.sub.2), a halogen atom, a cyano group (—CN), a group of formula (II) or (III), or both G.sup.1 and G.sup.2 taken together to form a group of formula (IV). ##STR00001##

The present invention relates to a method for producing Metal Organic Framework (MOF) having a framework that encapsulates a bio-molecule, the method comprising combining in a solution the bio-molecule and MOF precursors, wherein the bio-molecule promotes formation of the encapsulating framework.

The present invention relates to a method for producing Metal Organic Framework (MOF) having a framework that encapsulates a bio-molecule, the method comprising combining in a solution the bio-molecule and MOF precursors, wherein the bio-molecule promotes formation of the encapsulating framework.

Compositions and methods of capturing one or more nucleic acid molecules of a cell or subcellular compartment are described. In certain aspects, the compositions comprise a caged molecule comprising one or more photolinkers and an antisense oligonucleotide, which when uncaged hybridizes to a target nucleic acid molecule.

Compositions and methods of capturing one or more nucleic acid molecules of a cell or subcellular compartment are described. In certain aspects, the compositions comprise a caged molecule comprising one or more photolinkers and an antisense oligonucleotide, which when uncaged hybridizes to a target nucleic acid molecule.

The present disclosure provides compositions, kits, and methods to protect organs by inducing acquired cytoresistance without causing injury to the organ. The compositions, kits, and methods utilize heme proteins, iron and/or vitamin B12 and, optionally, agents that impact heme protein metabolism.

The present disclosure provides compositions, kits, and methods to protect organs by inducing acquired cytoresistance without causing injury to the organ. The compositions, kits, and methods utilize heme proteins, iron and/or vitamin B12 and, optionally, agents that impact heme protein metabolism.

The present invention relates to iron complex compounds for therapeutic use which are low in arsenic, chromium, lead, cadmium, mercury and/or aluminum, compositions thereof and processes for preparing said iron complex compounds.

The present invention relates to iron complex compounds for therapeutic use which are low in arsenic, chromium, lead, cadmium, mercury and/or aluminum, compositions thereof and processes for preparing said iron complex compounds.

A β-modified phosphoric acid compound precursor having a partial structure represented by

##STR00001##

where A.sub.1 represents —SR.sub.1, —S—S—R.sub.1, —SeR.sub.1, or —X, where X is a halogen selected from fluorine, chlorine, bromine, and iodine; R.sub.1 represents hydrogen, an alkyl group having 1 to 20 carbon atoms, or the like; L.sub.1 represents hydrogen, an alkyl group having 1 to 20 carbon atoms, or the like; L.sub.2 represents an alkyl group having 1 to 20 carbon atoms, or the like; L.sub.1 and L.sub.2 may be linked to each other to form a 4 to 6-membered ring structure; L.sub.1 and L.sub.2 may each have a substituent; and the symbol * represents a bond to be bonded to a phosphate group by phosphorylation. Further, provided are a reaction inhibitor and a medicine, each of which includes the β-modified phosphoric acid compound precursor.