Abstract: Monomers, polymers, or oligomers formed therefrom and methods of forming or utilizing monomers of formula I where R1 is a C1 to C4 alkyl; and X is —OH; —OM where M is lithium (Li), sodium (Na), or potassium (K), NH4+, R5NH3+, R52NH2+, R53NH+, R54N+ where R5 can independently be selected from alkyl, benzyl, and combinations thereof; —OR2 where R2 can be a C1 to C4 alkyl, 2-ethylhexyl, or a hydrocarbon moiety of bio-renewable alcohol or a hydrogenated derivative thereof; —NR3R4, —NR3—NR3R4, —NR3—OR4 where R3 and R4 can independently be H, a C1 to C4 alkyl, or combinations thereof.

Abstract: Monomers, polymers, or oligomers formed therefrom and methods of forming or utilizing monomers of formula I where R1 is a C1 to C4 alkyl; and X is —OH; —OM where M is lithium (Li), sodium (Na), or potassium (K), NH4+, R5NH3+, R52NH2+, R53NH+, R54N+ where R5 can independently be selected from alkyl, benzyl, and combinations thereof; —OR2 where R2 can be a C1 to C4 alkyl, 2-ethylhexyl, or a hydrocarbon moiety of bio-renewable alcohol or a hydrogenated derivative thereof; —NR3R4, —NR3—NR3R4, —NR3—OR4 where R3 and R4 can independently be H, a C1 to C4 alkyl, or combinations thereof.

Abstract: Compounds of formula III: and salts thereof are disclosed. Also disclosed are methods for preparing compounds of formula III, intermediates useful for preparing compounds of formula III and methods for preparing compounds and materials from compounds of formula III.

Abstract: Compounds of formula III: and salts thereof are disclosed. Also disclosed are methods for preparing compounds of formula III, intermediates useful for preparing compounds of formula III and methods for preparing compounds and materials from compounds of formula III.

Abstract: The invention provides methods for cyclizing poly-yne compounds under mild conditions to provide cyclic compounds.

Abstract: The invention provides silicate prodrugs comprising a therapeutic agent linked to one or more groups of formula (I): —Si(OR)3 (I); wherein each R independently has any of the values defined herein, as well as nanoparticles comprising such compounds.

Abstract: The invention provides silicate prodrugs comprising a therapeutic agent linked to one or more groups of formula (I): —Si(OR)3 (I); wherein each R independently has any of the values defined herein, as well as nanoparticles comprising such compounds.

Abstract: A class of topomimetic calixarene-based peptide mimetics is described. Calixarene-based peptide mimetics have various biological activities such as, for example, bactericidal activity, antiangiogenic activity, and/or antitumor activity. Methods of use and methods of designing calixarene-based peptide mimetics are described.

Abstract: A class of topomimetic calixarene-based peptide mimetics is described. Calixarene-based peptide mimetics have various biological activities such as, for example, bactericidal activity, antiangiogenic activity, and/or antitumor activity. Methods of use and methods of designing calixarene-based peptide mimetics are described.

Abstract: A class of topomimetic calixarene-based peptide mimetics is described. Calixarene-based peptide mimetics have various biological activities such as, for example, bactericidal activity, antiangiogenic activity, and/or antitumor activity. Methods of use and methods of designing calixarene-based peptide mimetics are described.

Abstract: A class of topomimetic calixarene-based peptide mimetics is described. Calixarene-based peptide mimetics have various biological activities such as, for example, bactericidal activity, antiangiogenic activity, and/or antitumor activity. Methods of use and methods of designing calixarene-based peptide mimetics are described.

Abstract: Compounds that function as lamprey attractants and methods.

Abstract: A class of topomimetic calixarene-based peptide mimetics is described. Calixarene-based peptide mimetics have various biological activities such as, for example, bactericidal activity, antiangiogenic activity, and/or antitumor activity. Methods of use and methods of designing calixarene-based peptide mimetics are described.

Abstract: Partial peptide mimetics and methods of making and using, wherein the partial peptide mimetics have a first amino acid sequence comprising ANIKLSVQMKL (SEQ ID NO:8), a homolog thereof, or a segment of SEQ ID NO:8 or a homolog thereof, a second amino acid sequence comprising IIVKLND (SEQ ID NO:2), a homolog thereof, or a segment of SEQ ID NO:2 or a homolog thereof, and a ?-turn inducing scaffold bonded between the first and second amino acid sequences.

Abstract: Partial peptide mimetics and methods of making and using, wherein the partial peptide mimetics have a first amino acid sequence comprising ANIKLSVQMKL (SEQ ID NO:8), a homolog thereof, or a segment of SEQ ID NO:8 or a homolog thereof, a second amino acid sequence comprising IIVKLND (SEQ ID NO:2), a homolog thereof, or a segment of SEQ ID NO:2 or a homolog thereof, and a ?-turn inducing scaffold bonded between the first and second amino acid sequences.

Abstract: Partial peptide mimetics and methods of making and using, wherein the partial peptide mimetics have a first amino acid sequence comprising ANIKLSVQMKL (SEQ ID NO: 8), a homolog thereof, or a segment of SEQ ID NO: 8 or a homolog thereof, a second amino acid sequence comprising IIVKLND (SEQ ID NO: 2), a homolog thereof, or a segment of SEQ ID NO: 2 or a homolog thereof, and a &bgr;-turn inducing scaffold bonded between the first and second amino acid sequences.

Abstract: A method for the synthesis of bis-tetrahydrofranyl Annonaceous acetogenins, including the natural products and analogs thereof, is provided which proceeds by the Pd-mediated coupling of a bis-tetrahydrofuranyl-subunit comprising a terminal alkyne, with a (C4)-hydroxybutenolide subunit comprising a terminal vinyl iodide, followed by selective reduction of the resulting enyne.

Abstract: A method for the synthesis of bis-tetrahydrofuranyl annonaceous acetogenins, including the natural products and analogs thereof, is provided which proceeds by the Pd-mediated coupling of a bis-tetrahydrofuranyl-subunit comprising a terminal alkyne, with a (C4)-hydroxybutenolide subunit comprising a terminal vinyl iodide, followed by selective reduction of the resulting enzyme.

Abstract: A method for the synthesis of bis-tetrahydrofuranyl annonaceous acetogenins, including the natural products and analogs thereof, is provided which proceeds by the Pd-mediated coupling of a bis-tetrahydrofuranyl-subunit comprising a terminal alkyne, with a (C4)-hydroxybutenolide subunit comprising a terminal vinyl iodide, followed by selective reduction of the resulting enyne.

Abstract: A method for the synthesis of bis-tetrahydrofuranyl Annonaceous acetogenins, including the natural products and analogs thereof, is provided which proceeds by the Pd-mediated coupling of a bis-tetrahydrofuranyl-subunit comprising a terminal alkyne, with a (C4)-hydroxybutenolide subunit comprising a terminal vinyl iodide, followed by selective reduction of the resulting enyne.