Cre1 is an important transcription factor that regulates carbon catabolite repression (CCR)
and is widely conserved across fungi. The cre1 gene has been extensively studied in …

Background In filamentous ascomycete fungi, the utilization of alternate carbon sources is
influenced by the zinc finger transcription factor CreA/CRE-1, which encodes a carbon …

Background The identification and characterization of the transcriptional regulatory networks
governing the physiology and adaptation of microbial cells is a key step in understanding …

Carbon catabolite repression (CCR) is a common phenomenon of microorganisms that
enable efficient utilization of carbon nutrients, critical for the fitness of microorganisms in the …

Filamentous fungi of the genus Aspergillus are of particular interest for biotechnological
applications due to their natural capacity to secrete carbohydrate-active enzymes (CAZy) …

The ascomycete Trichoderma reesei is one of the most well-studied cellulolytic fungi and is
widely used by the biotechnology industry in the production of second generation …

Carbon Catabolite Repression (CCR) has fascinated scientists and researchers around the
globe for the past few decades. This important mechanism allows preferential utilization of …

Carbon catabolite repression (CCR) is a process that selects the energetically most
favorable carbon source in an environment. CCR represses the use of less favorable carbon …

Carbon catabolite repression (CCR) mediated by CRE1 in Trichoderma reesei emerged as
a mechanism by which the fungus could adapt to new environments. In the presence of …

Carbon catabolite repression enables fungi to utilize the most favourable carbon source in
the environment, and is mediated by a key regulator, CreA, in most fungi. CreA-mediated …