Updated project metadata. The RNA binding protein Csde1 (Cold shock domain protein e1) is strongly upregulated during erythropoiesis, but its expression is reduced in Diamond Blackfan Anemia (DBA). To understand the role of Csde1 in DBA, and the cellular pathways controlled by Csde1 in erythropoiesis, we identified the transcripts that physically associate with Csde1. These mainly encoded proteins involved in ribogenesis, mRNA translation and protein degradation, but also proteins associated with the mitochondrial respiratory chain and mitosis. Crispr/Cas9-mediated deletion of the first cold shock domain of Csde1 affected RNA expression and/or protein expression of Csde1-bound transcripts. Protein expression of ribogenesis factors Rpf2, Nop56 and Ebna1bp2 was reduced in the deletion mutant, while mRNA was unchanged. Protein expression of Pabpc1 was enhanced while Pabpc1 mRNA expression was reduced. Strikingly, the effect of reduced Csde1 function on mRNA stability and translation of Csde1-bound transcripts was modest. The correlation efficient between protein (iBAQ) and mRNA (RPKM) expression was not different between Csde1-bound and other transcripts. We suggest that Csde1 is involved in feed-back control in protein homeostasis and that it dampens oscillations in gene expression.