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Cataplatta

Our Cataplatta 96 well plate enzyme kits provide access to new and novel chemistry.

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C=C double bond reduction kit

This kit contains 7 ene reductase (ENE) enzymes for the reduction of C=C double bonds in the presence of an electron withdrawing group (EWG).

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C=O reduction kit

This kit contains 17 alcohol dehydrogenase (ADH) enzymes for the reduction of ketones and aldehydes to the corresponding alcohols.

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Chiral amines kit

Our chiral amines kit contains a comprehensive section of enzymes classes capable of transforming a variety of substrates into primary, secondary and tertiary amines.

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STA-2

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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STA-14

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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STA-13

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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STA-121

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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STA-120

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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STA-118

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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STA-1

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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STA-113

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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RTA-58

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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RTA-57

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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RTA-40

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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RTA-45

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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RTA-25

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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RTA-194: R-transaminase

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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RTA-105

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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RTA-104

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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RTA-102

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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RTA-103

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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LDH-4

Lactate dehydrogenase (LDH) catalyses the reduction of pyruvate to either (R)- or (S)- lactate, while oxidising in turn NADH to NAD+, which is then regenerated using glucose dehydrogenase (GDH).

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IRED-72

An imine reductase (IRED) that catalyses the reductive amination of ketones with small aliphatic amines.

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IRED-69

An imine reductase (IRED) that catalyses the reductive amination of ketones with small aliphatic amines.

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IRED-49

An imine reductase (IRED) that catalyses the reductive amination of ketones with small aliphatic amines.

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IRED-44

An imine reductase (IRED) that catalyses the reductive amination of ketones with small aliphatic amines.

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IRED-33

An imine reductase (IRED) that catalyses the reductive amination of ketones with small aliphatic amines.

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IRED-3

An imine reductase (IRED) that catalyses the reductive amination of ketones with small aliphatic amines.

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IRED-18

An imine reductase (IRED) that catalyses the reductive amination of ketones with small aliphatic amines.

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IRED-17

An imine reductase (IRED) that catalyses the reductive amination of ketones with small aliphatic amines.

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IRED-1

An imine reductase (IRED) that catalyses the reductive amination of ketones with small aliphatic amines.

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GDH-8

Glucose dehydrogenase (GDH) catalyses the oxidation of D-glucose to D-glucolactone, while reducing in turn NAD+ or NADP+ to NADH and NADPH, respectively.

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GDH-101

Glucose dehydrogenase (GDH) catalyses the oxidation of D-glucose to D-glucolactone, while reducing in turn NAD+ or NADP+ to NADH and NADPH, respectively.

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GDH-5

Glucose dehydrogenase (GDH) catalyses the oxidation of D-glucose to D-glucolactone, while reducing in turn NAD+ or NADP+ to NADH and NADPH, respectively.

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FDH-102

Formate dehydrogenase (FDH) oxidises formate to carbon dioxide while reducing in turn NAD+ to NADH.

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AmDH-1

Aromatic and aliphatic primary amines can be obtained using Amine Dehydrogenses.

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AmDH-4

Aromatic and aliphatic primary amines can be obtained using Amine Dehydrogenases.

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AmDH-8

Aromatic and aliphatic primary amines can be obtained using Amine Dehydrogenases.

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AmDH-3

Aromatic and aliphatic primary amines can be obtained using Amine Dehydrogenases.

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