Identify the statements that are features of a promoter. Pick all that Apply.
A. In eukaryotes, the promoter recruits the preinitiation complex, which includes the TATA-binding protein.
b. In prokaryotes, the promoter is recognized by general transcription factors (GTF), which recruit the RNA polymerase holoenzyme.
c. In eukaryotes, the promoter attracts the small and large ribosomal subunits with the help of initiation factors.
d. In prokaryotes, the promoter contains a –35 and –10 region upstream of the transcription start site
e. In both prokaryotes and eukaryotes, the promoter is located in the 5\' direction, upstream from the transcription start site.
Identify the statements that are features of a promoter. Pick all that Apply. A. In eukaryotes,...
Describe how to control transcriptional initiation occurs in both PROKARYOTES and EUKARYOTES. Word bank: promoter TATA-Binding Protein (TBP) RNA polymerase + sigma factor enhancer TATA-box gene-specific transcription factors RNA polymerase + GTFs phosphodiester bonds -10 and -35 consensus sequences mediator protein +1 Transcriptional Start Site (TSS) deoxynucleoside triphosphates (dNTPs) template DNA RNA transcript.
The TATA binding protein binds to _______________. the promoter in eukaryotes. the promoter proximal element. the +1 transcription start site the promoter in prokaryotes.
Question 14 Which of the following is a feature common to BOTH prokaryotes and eukaryotes? The use of nucleosomes to condense DNA in the nucleus. The ability to translate an RNA before its transcription is complete. The ability to have multiple ribosomes on a single RNA for more efficient translation. The ability to start transcription at a 5'AUG sequence. o Question 15 A particular prokaryotic promoter contains only the region from-10 to-35. Which of the following is true? The RNA...
QUESTION 1 QUESTION 5 QUESTION 11 Identify the components required for translation initiation in bacteria What is the enzymatic component of the ribosome? A Protein Identify the TRANS components of the transcription initiation complex in bacteria ATFIE Bir RNA C. TATA BOX D-10 and 35 sequences E Signa factor B. Carbohydrates C.RNA CATFIE B. 5methyl guanosine cap C. Shine-Dalgamo Sequence D. Sigma factor CETFIID (TBP and TAFS) FTFIIB G. Initiator RNA H.10 and 35 sequences EL Smal ribosomal subunit J....
on and 6. Draw the same Eukaryotic transcript after splicing has removed the m label the remaining parts. 7. Describe the roles of the following features involved in Eukaryotic transcription: TATA Binding Protein General Transcription Factors Polymerase II 8. In Eukaryotic transcription, which happens first? A. The General Transcription Factors are recruited, and the Preinitiation complex (PIC) is assembled. B. The TBP binds the promoter 9. Describe the carboxy terminal domain (CTD) of RNA polymerase II and two of its...
Place the labels in the correct column. Eukaryotes Prokaryotes Torpedo and allosteric models Promoter Five general factors Common in mRNA genes Splicing -10 TATA Sigma factor needed Tailing Promotes degradation Capping Does not occur Rho independent and dependent Initiation 3 polymerases Rare;self-splicing Termination One Common on mRNA RNA polymerase Common for stability -25 TATA for mRNA Reset
Choose all that apply to the initiation of transcription Promoter segments Ribosome tRNA DNA polymerase Transcription factors Question 25 (4 points) Saved Choose all the molecules that are used in transcription: a) primase b) DNA c) nucleotides d) RNA polymerase e) SSB (single strand binding protein)
can someone help me answer these ? ive answered them but im not sure my answers are correct... 1. Would you expect attenuation control to occur in eukaryotes? Justify your answer. 2. Alpha-amanitin was found to have different effects on the three eukaryotic RNA polymerases.. Two types of eukaryotic RNA polymerases labelled as X and Y are given to you and your task is to identify these 2 RNA polymerases a. For this purpose you used very low concentrations of...
Classify each statement according to whether it applies to general transcription factors only, specific transcription factors only, both, or neither These transcription factors are found in both prokaryotes and eukaryotes. These transcription factors are proteins. These transcription factors form part of the transcription complex. One of these transcription factors binds directly to the TATA box in the core promoter. These transcription factors bind to the operator. These transcription factors bind to enhancer sequences that may be distant from the promoter....
Looking at the diagram of transcription in eukaryotes and using the information provided, how could the expression of lactase RNA be turned on and off by transcription factors, activators and repressors? Styles Font Paragraph Activators bind to genes at Rapressors bind to genes seauences and at shaoser sequences and The expression of RNA in eukaryotes is initiated by the binding of basal transcription factors to the promoter sequence of a gene. This leads to the recruitment of RNA polymerase to...