Fluorescent proteins (FPs) have revolutionized many aspects of cell biology and have become indispensable research tools. Today's increasingly complex experiments aiming to understand biological systems strongly depend on the availability of combinations of multiple FPs, which allow their distinguishable simultaneous detection in the same cell or tissue. Recently, the VENUS and DsRed.T4 FPs were described as the latest generation of yellow and red FPs. To increase the combinatorial possibilities when using these optimized FPs, we have generated and successfully tested seven new forms of VENUS and DsRed.T4 proteins with distinct subcellular localization. To facilitate their use as markers in biological experiments, bicistronic expression constructs, which have been optimized for robust expression in almost all mammalian developmental stages and cell types, were produced for the new FPs. In addition, several plasmids were created, which contain all necessary elements for inserting the reading frames of these FPs into specific gene loci in knock-in experiments without disrupting the reading frame of the endogenous gene.