9.1 Quiz

Descrição

Advanced Cell Biology I (Unit 1) Quiz sobre 9.1 Quiz, criado por Brooks Johnson em 31-05-2020.
Brooks Johnson
Quiz por Brooks Johnson, atualizado more than 1 year ago
Brooks Johnson
Criado por Brooks Johnson mais de 4 anos atrás
15
2

Resumo de Recurso

Questão 1

Questão
Label the following image.
Responda
  • Promoter
  • CAP site
  • transcription start site
  • sigma^70
  • CAP
  • lac repressor
  • lactose
  • cAMP
  • high transcription
  • low transcription
  • no transcription
  • O3
  • O1
  • lacZ
  • O2
  • O3 (right picture)
  • promoter
  • O1 (right picture)
  • lacZ (right picture)
  • O2 (right picture)

Questão 2

Questão
Most E. coli promoters interact with _____ polymerase, the major initiating form of the bacterial enzyme.
Responda
  • sigma^90-RNA
  • alpha^70-RNA
  • sigma^70-RNA
  • beta^80-RNA

Questão 3

Questão
In E. coli, there are [blank_start]6[blank_end] alternative σ-factors in addition to the major “housekeeping” σ-factor, σ70.
Responda
  • 6

Questão 4

Questão
One class, represented in E. coli by ___, is unrelated to σ70 and functions differently
Responda
  • σ67
  • σ54
  • σ11
  • σ70

Questão 5

Questão
Transcription of genes by RNA polymerases containing σ54 is regulated solely by activators whose binding sites in DNA, referred to as [blank_start]enhancers[blank_end], are generally located 80–160 bp [blank_start]upstream[blank_end] from the transcription start site.
Responda
  • enhancers
  • upstream

Questão 6

Questão
Transcription by σ54-RNA Polymerase Is Controlled by Activators That Bind close to the Promoter
Responda
  • True
  • False

Questão 7

Questão
Even when enhancers are moved more than a kilobase away from a start site, σ54-activators can activate transcription
Responda
  • True
  • False

Questão 8

Questão
Electron microscopy studies have shown that phosphorylated NtrC bound at enhancers and σ54-polymerase bound at the promoter interact directly, forming a [blank_start]loop[blank_end] in the DNA between the binding sites (Figure 9-5). As discussed later in this chapter, this activation mechanism resembles the predominant mechanism of transcriptional activation in [blank_start]eukaryotes[blank_end].
Responda
  • loop
  • eukaryotes

Questão 9

Questão
The best-characterized σ54-activator—the [blank_start]NtrC[blank_end] protein
Responda
  • NtrC

Questão 10

Questão
The operator is where the [blank_start]repressor[blank_end] binds.
Responda
  • repressor

Questão 11

Questão
The [blank_start]promoter[blank_end] is where RNA-Polymerase binds.
Responda
  • promoter

Questão 12

Questão
Gene expression in both prokaryotes and eukaryotes is regulated primarily by mechanisms that control gene [blank_start]transcription[blank_end].
Responda
  • transcription

Questão 13

Questão
The first step in the initiation of transcription in E. coli is the binding of a [blank_start]sigma[blank_end]-factor complexed with an [blank_start]RNA polymerase[blank_end] to a [blank_start]promoter[blank_end].
Responda
  • sigma
  • RNA polymerase
  • promoter

Questão 14

Questão
The ___________ of a promoter determines its strength, that is, how frequently different RNA polymerase molecules can bind and initiate transcription per minute.
Responda
  • GC content
  • nucleotide sequence
  • AT content
  • There is no correlation between the promoter and its strength.

Questão 15

Questão
[blank_start]Repressors[blank_end] are proteins that bind to [blank_start]operator[blank_end] sequences that overlap or lie adjacent to promoters. Binding of a [blank_start]repressor[blank_end] to an operator inhibits transcription initiation or elongation.
Responda
  • Repressors
  • operator
  • repressor

Questão 16

Questão
Genes transcribed by σ54-RNA polymerase are regulated by activators that bind to enhancers located about 100 base pairs [blank_start]upstream[blank_end] from the start site. When the activator and σ54-RNA polymerase interact, the DNA between their binding sites forms a [blank_start]loop[blank_end]
Responda
  • loop
  • upstream

Questão 17

Questão
In [blank_start]two-component regulatory systems[blank_end], one protein acts as a sensor, monitoring the level of nutrients or other components in the environment. Under appropriate conditions, the γ-phosphate of an ATP is transferred first to a [blank_start]histidine[blank_end] in the sensor protein and then to an [blank_start]aspartic acid[blank_end] in a second protein, the response regulator. The phosphorylated response regulator then performs a specific function in response to the stimulus, such as binding to DNA regulatory sequences, thereby stimulating or repressing transcription of specific genes
Responda
  • two-component regulatory systems
  • histidine
  • aspartic acid

Questão 18

Questão
Transcription in bacteria can also be regulated by control of [blank_start]transcriptional elongation[blank_end] in the [blank_start]promoter-proximal[blank_end] region. This control can be exerted by ribosome binding to the nascent mRNA, as in the case of the E. coli trp operon (see Figure 9-7), or by riboswitches, RNA sequences that bind small molecules, as for the B. subtilis xpt-pbuX operon (see Figure 9-8), to determine whether a stem-loop followed by a string of uracils forms, causing the bacterial RNA polymerase to pause and terminate transcription.
Responda
  • transcriptional elongation
  • promoter-proximal

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