can act as tags to modify histones and control availability of DNA for transcription

refers to how tightly packed the nucleosomes are 

indicible operon in prokaryotes 

areas of DNA that are available for transcription; not tightly packed 

an alternative energy source for bacteria; but bacteria prefer to use glucose for energy 

areas of DNA that are tightly packed and not available for transcription; dark patches in the nucleus

required for transcription of eukaryotic genes; require presence of transcription factors to initiate transcription

RNA polymerase must wait for specific transcription factors that bound to distal control elements to interact with PIC

RNA polymerase begins transcribing the gene; simultaneously, the TBP releases from promoter region

lac repressor binds to lac operator and transcription of lac operon is blocked 

immediately after transcription, RNA molecule is known as a pre-mRNA; pre-mRNA must undergo processing in nucleus before it becomes mature mRNA and before it can be exported from nucleus

first stage of post-transcriptional regulation; pre-mRNA still contains introns, that must be spliced out of RNA; requires proper identification of introns; Errors in splicing could lead to splicing-out an exon that is needed

can be deleterious to organism or cell; it is possible for them to produce a protein variant - without loss of original protein function; new variants might bestow an adaptive advantage

some genes can undergo this during post-translational modification, including: exon skipping, mutually exclusive exons, alternative 5' donor sites; alternative 3' donor sites, and intron retention; leads to possibility of one gene to multiple gene products

lac repressor protein binds to lactose, which causes it to change shape so that lac operon is turned on and transcription occurs at low rate until cAMP/CAP complex binds to it