The main aim of this project is to design and develop efficient biocatalytic cascades using purified enzymes in vitro, and develop artificial biosynthetic pathways in whole cells microbial organisms. The targets of the biocatalytic pathways are amine products (chiral and non-chiral) that are of particular interest for the chemical industry. We introduce the amine functionality in the pivotal catalytic step of the artificial biocatalytic pathways using a new class of enzymes, namely the amine dehydrogenases (AmDHs). Notably, natural “true” AmDHs were not known in nature at the time of this proposal and therefore scientists had to engineer them in laboratory. Only two AmDHs were generated before the start of this project and they displayed a limited and similar substrate scope. Therefore, the BioSusAmin project aims at extending the tool-box of amine dehydrogenases as biocatalysts for the asymmetric reductive amination of ketones. In particular, we focus on the protein engineering of AmDHs that are active on the specific chemical targets of the designed biocatalytic cascades. Additionally, screening for more diverse substrates is being carried out. We investigate alternative scaffolds and alternative strategies to obtain diverse AmDHs. Finally, we will apply our new AmDHs in combination with other enzymes such as alcohol dehydrogenases, oxidases, alkane monooxygenases, etc., to deliver variously functionalised amines and derivatives as final products with elevated yields, perfect chemo- regio- and stereoselectivity, enhanced atom efficiency and minimum environmental impact. Such an approach will be realised through the design of new pathways that will convert inexpensive starting materials from renewable resources, encompassing the internal recycling of redox equivalents, the use of inorganic ammonia as nitrogen source and, if necessary, only molecular oxygen as the innocuous additional oxidant. Water will be the sole by-product. In summary, this project contributes to develop sustainable synthesis of high-value amines that are important for the bulk chemicals, pharmaceutical and fine chemicals industries.