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Transaminase enzymes

Transaminase enzymes can be used to produce aromatic and aliphatic primary amines.

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Alanine dehydrogenase enzyme

Alanine dehydrogenase catalyses the reductive amination of pyruvate to L-alanine

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Amine dehydrogenase enzymes

Amine dehydrogenase enzymes are wild type and engineered enzymes to catalyse a wider range of transformations

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Lactate dehydrogenase enzymes

Lactate dehydrogenase catalyses the reduction of pyruvate to either (R)- or (S)- lactate

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Equilibrium shift enzymes

We offer multi-enzymatic systems to remove the pyruvate by-product from the reaction

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Cofactor regeneration enzymes

NADP and NAD regeneration enzymes

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Ru-137

[(S)-Binap RuCl p-cymene]Cl | CAS Number: 14284-93-6

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Ru-139

Tris(2,2′-bipyridyl)dichlororuthenium(II) hexahydrate | CAS Number: 50525-27-4

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Ru-139

[Ru(bpy)₃][PF6]₂ | CAS Number: 50525-27-4

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C1-850 (Ru-PNN)

CAS Number: 1388712-91-1

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C1-751

Ru(OAc)₂(SNS)(PPh₃)

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Pd-119

PdCl₂ (dippf) | CAS Number: 215788-65-1

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Rh-93

CAS Number: 12092-47-6

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Pd-214

[Me₄tBuXPhos Pd(allyl)]OTf | CAS Number: 1798782-29-2

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RTA-194: R-transaminase

Aromatic and aliphatic primary amines can be obtained using our Transaminases

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SILVER-FLO filler metals

SILVER-FLO™ products can be used to join the common engineering metals such as copper, copper alloys (brass, bronze, nickel silver, aluminium bronze, copper nickel), nickel alloys, steel, stainless steel and tungsten carbide.

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C1-358

C4-[(R,R)-teth-TrisDPEN RuCl] | CAS Number: 1629123-68-7

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NOx reduction FCC additives

Johnson Matthey's NONOX™ FCC additives deliver up to 40% NOx reduction in full and partial burn regenerators, minimising costs and meeting emissions limits.

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FORMOX 2.0

High pressure plants and catalysts - get 30% higher capacity with FORMOX 2.0

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ENE-103

Ene reductase enzymes for the reduction of C=C double bonds in the presence of an electron withdrawing group

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