The disclosure relates to the biosynthesis of terpenoids, such as, for example, geraniol and derivatives thereof, using genetic engineering. In particular, the disclosure relates to the biosynthesis of nepetalactol, nepetalactone, dihydronepetalactone, and derivatives thereof. The disclosure provides recombinant cells genetically engineered to produce high levels of nepetalactol, nepetalactone and/or dihydronepetalactone. The disclosure also provides methods of producing nepetalactol, nepetalactone and dihydronepetalactone using cell-based systems as well as cell-free systems.

A method for producing an objective substance such as sphingoid bases and sphingolipids using yeast is provided. An objective substance is produced by cultivating yeast having an ability to produce the objective substance in a culture medium containing an additive that is able to associate with, bind to, solubilize, and/or capture the objective substance, and collecting the objective substance from cells of the yeast and/or the culture medium.

A method for producing an objective substance such as sphingoid bases and sphingolipids using yeast is provided. An objective substance is produced by cultivating yeast having an ability to produce the objective substance in a culture medium containing an additive that is able to associate with, bind to, solubilize, and/or capture the objective substance, and collecting the objective substance from cells of the yeast and/or the culture medium.

The invention relates to genetically modified Pichia ciferrii cells, to the use thereof and to a method of producing sphingoid bases and sphingolipids.

The present invention relates to a Wickerhamomyces ciferrii mutant strain having an improved ability to produce tetraacetylphytosphingosine (TAPS), and a method for producing TAPS using the same. The Wickerhamomyces ciferrii mutant strain provided by the present invention exhibits excellent TAPS productivity, and thus may be widely used in development of various products that use TAPS.