Abstract: Provided are macrocyclic compounds and compounds with two or more macrocyclic groups, iron coordinated macrocyclic compounds, and iron coordinated compounds with two or more macrocyclic groups. The iron is high-spin iron(III). The iron coordinated compounds may exhibit a negative redox potential (e.g., relative to a normal hydrogen electrode at a biologically relevant pH, for example, a pH of 6.5-7.5). The compounds can be used as MRI contrast agents.

Abstract: Compounds may have at least two structural units, which may be referred to as ligands. Each structural unit includes at least one spacer group and two or more donor groups. Compounds may have two or more iron(III) cations, one or more of which may be a high-spin iron(III) cation or high-spin iron(III) cations, two or more gallium(III) cations, or at least one iron(III) cation, one or more of which may be a high-spin iron(III) cation or high-spin iron(III) cations, and at least one gallium(III) cation, where the iron(III) cation(s) and/or the gallium(III) cation(s) coordinate to the donor groups. The compounds may be self-assembled cages. A composition may include one or more of the compound(s) and a pharmaceutically accepted carrier. Methods of imaging use one or more of the compound(s) and/or one or more of the composition(s).

Abstract: Macrocyclic complexes and macrocyclic compounds. The macrocyclic complexes or macrocyclic compounds have a TACN moiety with one or more amine group(s) or a O- or S-substituted TACN moiety. The macrocyclic complexes have a high-spin Fe(III) atom coordinated to the TACN moiety. The macrocyclic complexes can be used in imaging methods.

Abstract: Provided are macrocyclic compounds and compounds with two or more macrocyclic groups, iron coordinated macrocyclic compounds, and iron coordinated compounds with two or more macrocyclic groups. The iron is high-spin iron(III). The iron coordinated compounds may exhibit a negative redox potential (e.g., relative to a normal hydrogen electrode at a biologically relevant pH, for example, a pH of 6.5-7.5). The compounds can be used as MRI contrast agents.

Abstract: Provided are macrocyclic compounds having a macrocyclic core which has at least one macrocyclic donor and at least one pendant group which has at least one donor group. The macrocyclic compounds can be complexed to Fe(II) and Ni(II). The macrocyclic compounds can be used in imaging methods. For example, the compounds can be used MRI paraCEST contrast agents.

Abstract: Macrocyclic complexes and macrocyclic compounds. The macrocyclic complexes or macrocyclic compounds have a TACN moiety with one or more amine group(s) or a O- or S-substituted TACN moiety. The macrocyclic complexes have a high-spin Fe(III) atom coordinated to the TACN moiety. The macrocyclic complexes can be used in imaging methods.

Abstract: Provided are macrocyclic compounds and iron or cobalt coordinated macrocyclic compounds. The compounds can be used as MRI contrast agents. Certain compounds are redox active and can be used to assess the biological redox status of a sample.

Abstract: Provided are macrocyclic compounds and compounds with two or more macrocyclic groups, iron coordinated macro-cyclic compounds, and iron coordinated compounds with two or more macrocyclic groups. The iron is high-spin iron(III). The iron coordinated compounds may exhibit a negative redox potential (e.g., relative to a normal hydrogen electrode at a biologically relevant pH, for example, a pH of 6.5-7.5). The compounds can be used as MRI contrast agents.

Abstract: Provided are macrocyclic compounds and iron or cobalt coordinated macrocyclic compounds. The compounds can be used as MRI contrast agents. Certain compounds are redox active and can be used to assess the biological redox status of a sample.

Abstract: Compounds and uses of the compounds are provided. The compounds can be used as Fe(II) sequestering compounds. For example, these compounds can be used to sequester Fe(II) in cells, organs, vasculature, or tissues. Also, provided are compositions and methods of using the them for sequestering Fe(II) in an individual. The compounds can be used as MRI paraCEST contrast agents.

Abstract: Provided are macrocyclic compounds having a macrocyclic core which has at least one macrocyclic donor and at least one pendant group which has at least one donor group. The macrocyclic compounds can be complexed to Fe(II) and Ni(II). The macrocyclic compounds can be used in imaging methods. For example, the compounds can be used MRI paraCEST contrast agents.

Abstract: The present invention provides the first examples of metal complexes that show catalytic behavior in RNA transesterification under physiological relevant conditions i.e., 37.degree. C. and neutral pH. The metal complexes are catalytically active and kinetically inert to metal ion dissociation.The metal complexes are formed by the union of a central metal ion with a non-metallic ion or molecule. The metal ion comprises copper, zinc, cobalt, nickel, palladium, lead, iridium, maganese, iron, molybdenum, vanadium, titanium, ruthenium, bismuth, cadmium, yttrium, magnesium, rhodium, uranium, the transition metals and the Lanthanide metals. The non-metallic ion comprises a ligand or complexing agent. The preferred ligand is one which strongly chelates lanthanides, and more preferably, forms a cationic complex of the lanthanides.