The invention provides methods utilizing Prins reaction in the preparation of compounds that may be useful as intermediates in the synthesis of halichondrin macrolides and analogs thereof. The invention also provides compounds that may be useful as intermediates in the synthesis of a halichondrin macrolides and methods for preparing the same.

Chromophores with large hyperpolarizabilities, films with electro-optic activity comprising the chromophores, and electro-optic devices comprising the chromophores are disclosed.

Chromophores with large hyperpolarizabilities, films with electro-optic activity comprising the chromophores, and electro-optic devices comprising the chromophores are disclosed.

The present disclosure relates to nitenin analogue compounds (of formulas I, II, III and IV) and their use as pharmaceutical agent in the treatment, prevention or reduction of both acute and chronic pain. The mode of action disclosed herein allows nitenin and nitenin analogue compounds to act as analgesic through reduction of K.sup.30 currents rather than their potentiation. Related to their high efficacy in the treatment of pain, these compounds are highly selective for slow voltage-activated potassium (K.sup.30 ) currents expressed in the small diameter dorsal root neurons (sDRGns), mainly on those mediated by the voltage-dependent potassium channel (K.sub.V), K.sub.V1.3. Such findings, together with those showing that nitenin and nitenin analogue compounds act as activity dependent blockers also lead to very reduced side-effects. The results disclosed herein show that nitenin and nitenin analogue compounds described herein are a viable alternative to the already existing pharmaceutical compounds used in the treatment of pain.

The present disclosure relates to nitenin analogue compounds (of formulas I, II, III and IV) and their use as pharmaceutical agent in the treatment, prevention or reduction of both acute and chronic pain. The mode of action disclosed herein allows nitenin and nitenin analogue compounds to act as analgesic through reduction of K.sup.30 currents rather than their potentiation. Related to their high efficacy in the treatment of pain, these compounds are highly selective for slow voltage-activated potassium (K.sup.30 ) currents expressed in the small diameter dorsal root neurons (sDRGns), mainly on those mediated by the voltage-dependent potassium channel (K.sub.V), K.sub.V1.3. Such findings, together with those showing that nitenin and nitenin analogue compounds act as activity dependent blockers also lead to very reduced side-effects. The results disclosed herein show that nitenin and nitenin analogue compounds described herein are a viable alternative to the already existing pharmaceutical compounds used in the treatment of pain.

The present disclosure provides compositions and methods for metathesizing a first alkenyl or alkynyl group with a second alkenyl or alkynyl group, the composition comprising a ruthenium metathesis catalyst and a photoredox catalyst that is activated by visible light.

The invention provides methods for the synthesis of a halichondrin macrolides or analogs thereof through a cyclization reaction strategy. The strategy of the present invention involves subjecting an intermediate to Prins reaction conditions to afford a macrolide. The invention also provides compounds useful as intermediates in the synthesis of a halichondrin macrolides or analogs thereof and methods for preparing the same.

The invention provides methods for the synthesis of eribulin or a pharmaceutically acceptable salt thereof (e.g., eribulin mesylate) through a macrocyclization strategy. The macrocyclization strategy of the present invention involves subjecting a non-macrocyclic intermediate to a carbon-carbon bond-forming reaction (e.g., an olefination reaction (e.g., Homer-Wadsworth-Emmons olefination), Dieckmann reaction, catalytic Ring-Closing Olefin Metathesis, or Nozaki-Hiyama-Kishi reaction) to afford a macrocyclic intermediate. The invention also provides compounds useful as intermediates in the synthesis of eribulin or a pharmaceutically acceptable salt thereof and methods for preparing the same.

The invention provides methods for the synthesis of eribulin or a pharmaceutically acceptable salt thereof (e.g., eribulin mesylate) through a macrocyclization strategy. The macrocyclization strategy of the present invention involves subjecting a non-macrocyclic intermediate to a carbon-carbon bond-forming reaction (e.g., an olefination reaction (e.g., Homer-Wadsworth-Emmons olefination), Dieckmann reaction, catalytic Ring-Closing Olefin Metathesis, or Nozaki-Hiyama-Kishi reaction) to afford a macrocyclic intermediate. The invention also provides compounds useful as intermediates in the synthesis of eribulin or a pharmaceutically acceptable salt thereof and methods for preparing the same.

The present invention relates to malonamide compounds of the formula (I) wherein the variables are as defined in the claims and the description, and to compositions comprising these compounds. The invention also relates to the use of said malonamide compounds or the corresponding compositions for controlling unwanted vegetation. Furthermore, the invention relates to methods for controlling unwanted vegetation wherein said malonamide compounds or the corresponding compositions are applied.

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