We have investigated the relationship between the growth rate of two Kluyveromyces strains that differ in their maximum growth rate, namely K. lactis (mumax = 0.5 h-1) and K. marxianus (mumax = 1.1 h-1), and the transcription rate of ribosomal protein (rp) genes in these strains. The growth rate of either strain was varied by culturing the cells in a chemostat under conditions of glucose limitation at different dilution rates. Although the steady-state levels of transcription of the rp-genes of both Kluyveromyces strains were tightly coupled to the cellular growth rate, no clear relationship between the level of rp-gene transcription and the amount of in vitro binding of the RAP1- and ABF1-like proteins to the promoters of these rp-genes was observed. Upon a sudden increase in the growth rate of a steady-state culture, the transcription of rp-genes of K. lactis showed a different response from that in K. marxianus. Whereas a substantial overexpression of the K. lactis rp-genes was found during at least 4-5 h, the level of expression of the K. marxianus rp-genes was almost immediately adjusted to the new growth rate.