Complete the sentences below using the words and phrases on the left. Then arrange the text boxes to show the order of key events n prokaryotic transcription. (Each word or phrase is used only once, and not all of them are used.) Drag the text blocks below into their correct order. origin After binding to the promoter, RNA polymerase unwinds part of the , exposing the template strand and forming an hairpin loop hydrogen bond The terminator sequence in the that may form a , signals the RNA polymerase to stop transcribing. transcribed mRNA 5' end of the MRNA The is released, marking the end of initiation. 3' end of the MRNA transcription bubble In elongation, RNA polymerase continues to unwind the DNA and add to the growing mRNA chain in a moving region called the promoter Initiation begins when RNA polymerase, with a o (sigma) subunit associated, recognizes and binds to the DNA double helix region of DNA forming a o subunit

Human Anatomy & Physiology (11th Edition)
11th Edition
ISBN:9780134580999
Author:Elaine N. Marieb, Katja N. Hoehn
Publisher:Elaine N. Marieb, Katja N. Hoehn
Chapter1: The Human Body: An Orientation
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Problem 1RQ: The correct sequence of levels forming the structural hierarchy is A. (a) organ, organ system,...
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pls help asap I am a little confused here!!

Complete the sentences below using the words and phrases on the left. Then arrange the text boxes to show the order of key events
in prokaryotic transcription. (Each word or phrase is used only once, and not all of them are used.)
Drag the text blocks below into their
correct order.
origin
After binding to the promoter, RNA polymerase unwinds part of the
exposing the template strand and forming an
hairpin loop
hydrogen bond
The terminator sequence in the
that may form a
signals the RNA polymerase to stop transcribing.
transcribed mRNA
5' end of the mRNA
The
is released, marking the end of initiation.
3' end of the mRNA
transcription bubble
In elongation, RNA polymerase continues to unwind the DNA and add to the
growing mRNA chain in a moving region called the
promoter
Initiation begins when RNA polymerase, with a o (sigma) subunit associated,
recognizes and binds to the
DNA double helix
region of DNA forming a
o subunit
wwwwwww
MwW
Transcribed Image Text:Complete the sentences below using the words and phrases on the left. Then arrange the text boxes to show the order of key events in prokaryotic transcription. (Each word or phrase is used only once, and not all of them are used.) Drag the text blocks below into their correct order. origin After binding to the promoter, RNA polymerase unwinds part of the exposing the template strand and forming an hairpin loop hydrogen bond The terminator sequence in the that may form a signals the RNA polymerase to stop transcribing. transcribed mRNA 5' end of the mRNA The is released, marking the end of initiation. 3' end of the mRNA transcription bubble In elongation, RNA polymerase continues to unwind the DNA and add to the growing mRNA chain in a moving region called the promoter Initiation begins when RNA polymerase, with a o (sigma) subunit associated, recognizes and binds to the DNA double helix region of DNA forming a o subunit wwwwwww MwW
hairpin loop
exposing the template strand and forming an
hydrogen bond
The terminator sequence in the
that may form a
signals the RNA polymerase to stop transcribing.
transcribed mRNA
5' end of the mRNA
The
is released, marking the end of initiation.
3' end of the MRNA
transcription bubble
In elongation, RNA polymerase continues to unwind the DNA and add to the
growing mRNA chain in a moving region called the
promoter
Initiation begins when RNA polymerase, with a o (sigma) subunit associated,
recognizes and binds to the
DNA double helix
region of DNA forming a
o subunit
RNA polymerase aligns and then forms a
ribonucleotides at the
etween two
closed promoter complex
open promoter complex
phosphodiester bond
wwwwww
Transcribed Image Text:hairpin loop exposing the template strand and forming an hydrogen bond The terminator sequence in the that may form a signals the RNA polymerase to stop transcribing. transcribed mRNA 5' end of the mRNA The is released, marking the end of initiation. 3' end of the MRNA transcription bubble In elongation, RNA polymerase continues to unwind the DNA and add to the growing mRNA chain in a moving region called the promoter Initiation begins when RNA polymerase, with a o (sigma) subunit associated, recognizes and binds to the DNA double helix region of DNA forming a o subunit RNA polymerase aligns and then forms a ribonucleotides at the etween two closed promoter complex open promoter complex phosphodiester bond wwwwww
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