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Molecular Biology Of The Cell 6th Edition by Bruce Alberts, Alexander Johnson, Julian Lewis, David Morgan, Martin Raff, Keith Roberts, Peter Walter
Edition 6ISBN: 978-0815345244Molecular Biology Of The Cell 6th Edition by Bruce Alberts, Alexander Johnson, Julian Lewis, David Morgan, Martin Raff, Keith Roberts, Peter Walter
Edition 6ISBN: 978-0815345244 Exercise 10
The protein SmpB binds to a special species of tRNA, tmRNA, to eliminate the incomplete proteins made from truncated mRNAs in bacteri a. If the binding of SmpB to tmRNA is plotted as fraction tmRNA bound versus SmpB concentration, one obtains a symmetrical S-shaped curve as shown in Figure Q3-3. This curve is a visual display of a very useful relationship between ![The protein SmpB binds to a special species of tRNA, tmRNA, to eliminate the incomplete proteins made from truncated mRNAs in bacteri a. If the binding of SmpB to tmRNA is plotted as fraction tmRNA bound versus SmpB concentration, one obtains a symmetrical S-shaped curve as shown in Figure Q3-3. This curve is a visual display of a very useful relationship between and concentration, which has broad applicability. The general expression for fraction of ligand bound is derived from the equation for by substituting for [Pr-L] and rearranging. Because the total concentration of ligand is equal to the free ligand ([L]) plus bound ligand ([Pr-L]), For SmpB and tmRNA, the fraction bound = Using this relationshipProblems p3.28/3.24, calculate the fraction of tmRNA bound for SmpB concentrations equal to](https://storage.examlex.com/SM1035/11ebda36_04bf_cda3_be32_f531a34e4941_SM1035_11.jpg)
and concentration, which has broad applicability. The general expression for fraction of ligand bound is derived from the equation for ![The protein SmpB binds to a special species of tRNA, tmRNA, to eliminate the incomplete proteins made from truncated mRNAs in bacteri a. If the binding of SmpB to tmRNA is plotted as fraction tmRNA bound versus SmpB concentration, one obtains a symmetrical S-shaped curve as shown in Figure Q3-3. This curve is a visual display of a very useful relationship between and concentration, which has broad applicability. The general expression for fraction of ligand bound is derived from the equation for by substituting for [Pr-L] and rearranging. Because the total concentration of ligand is equal to the free ligand ([L]) plus bound ligand ([Pr-L]), For SmpB and tmRNA, the fraction bound = Using this relationshipProblems p3.28/3.24, calculate the fraction of tmRNA bound for SmpB concentrations equal to](https://storage.examlex.com/SM1035/11ebda36_04bf_cda4_be32_a32498788248_SM1035_11.jpg)
by substituting ![The protein SmpB binds to a special species of tRNA, tmRNA, to eliminate the incomplete proteins made from truncated mRNAs in bacteri a. If the binding of SmpB to tmRNA is plotted as fraction tmRNA bound versus SmpB concentration, one obtains a symmetrical S-shaped curve as shown in Figure Q3-3. This curve is a visual display of a very useful relationship between and concentration, which has broad applicability. The general expression for fraction of ligand bound is derived from the equation for by substituting for [Pr-L] and rearranging. Because the total concentration of ligand is equal to the free ligand ([L]) plus bound ligand ([Pr-L]), For SmpB and tmRNA, the fraction bound = Using this relationshipProblems p3.28/3.24, calculate the fraction of tmRNA bound for SmpB concentrations equal to](https://storage.examlex.com/SM1035/11ebda36_04bf_cda5_be32_1bfacfd1b43f_SM1035_11.jpg)
for [Pr-L] and rearranging. Because the total concentration of ligand ![The protein SmpB binds to a special species of tRNA, tmRNA, to eliminate the incomplete proteins made from truncated mRNAs in bacteri a. If the binding of SmpB to tmRNA is plotted as fraction tmRNA bound versus SmpB concentration, one obtains a symmetrical S-shaped curve as shown in Figure Q3-3. This curve is a visual display of a very useful relationship between and concentration, which has broad applicability. The general expression for fraction of ligand bound is derived from the equation for by substituting for [Pr-L] and rearranging. Because the total concentration of ligand is equal to the free ligand ([L]) plus bound ligand ([Pr-L]), For SmpB and tmRNA, the fraction bound = Using this relationshipProblems p3.28/3.24, calculate the fraction of tmRNA bound for SmpB concentrations equal to](https://storage.examlex.com/SM1035/11ebda36_04bf_cda6_be32_d7b447183927_SM1035_11.jpg)
is equal to the free ligand ([L]) plus bound ligand ([Pr-L]), ![The protein SmpB binds to a special species of tRNA, tmRNA, to eliminate the incomplete proteins made from truncated mRNAs in bacteri a. If the binding of SmpB to tmRNA is plotted as fraction tmRNA bound versus SmpB concentration, one obtains a symmetrical S-shaped curve as shown in Figure Q3-3. This curve is a visual display of a very useful relationship between and concentration, which has broad applicability. The general expression for fraction of ligand bound is derived from the equation for by substituting for [Pr-L] and rearranging. Because the total concentration of ligand is equal to the free ligand ([L]) plus bound ligand ([Pr-L]), For SmpB and tmRNA, the fraction bound = Using this relationshipProblems p3.28/3.24, calculate the fraction of tmRNA bound for SmpB concentrations equal to](https://storage.examlex.com/SM1035/11ebda36_04bf_cda7_be32_93d559c6c7fe_SM1035_11.jpg)
![The protein SmpB binds to a special species of tRNA, tmRNA, to eliminate the incomplete proteins made from truncated mRNAs in bacteri a. If the binding of SmpB to tmRNA is plotted as fraction tmRNA bound versus SmpB concentration, one obtains a symmetrical S-shaped curve as shown in Figure Q3-3. This curve is a visual display of a very useful relationship between and concentration, which has broad applicability. The general expression for fraction of ligand bound is derived from the equation for by substituting for [Pr-L] and rearranging. Because the total concentration of ligand is equal to the free ligand ([L]) plus bound ligand ([Pr-L]), For SmpB and tmRNA, the fraction bound = Using this relationshipProblems p3.28/3.24, calculate the fraction of tmRNA bound for SmpB concentrations equal to](https://storage.examlex.com/SM1035/11ebda36_04bf_f4b8_be32_cfe2c451677f_SM1035_00.jpg)
For SmpB and tmRNA, the fraction bound = ![The protein SmpB binds to a special species of tRNA, tmRNA, to eliminate the incomplete proteins made from truncated mRNAs in bacteri a. If the binding of SmpB to tmRNA is plotted as fraction tmRNA bound versus SmpB concentration, one obtains a symmetrical S-shaped curve as shown in Figure Q3-3. This curve is a visual display of a very useful relationship between and concentration, which has broad applicability. The general expression for fraction of ligand bound is derived from the equation for by substituting for [Pr-L] and rearranging. Because the total concentration of ligand is equal to the free ligand ([L]) plus bound ligand ([Pr-L]), For SmpB and tmRNA, the fraction bound = Using this relationshipProblems p3.28/3.24, calculate the fraction of tmRNA bound for SmpB concentrations equal to](https://storage.examlex.com/SM1035/11ebda36_04bf_f4b9_be32_db3a900e5c05_SM1035_11.jpg)
![The protein SmpB binds to a special species of tRNA, tmRNA, to eliminate the incomplete proteins made from truncated mRNAs in bacteri a. If the binding of SmpB to tmRNA is plotted as fraction tmRNA bound versus SmpB concentration, one obtains a symmetrical S-shaped curve as shown in Figure Q3-3. This curve is a visual display of a very useful relationship between and concentration, which has broad applicability. The general expression for fraction of ligand bound is derived from the equation for by substituting for [Pr-L] and rearranging. Because the total concentration of ligand is equal to the free ligand ([L]) plus bound ligand ([Pr-L]), For SmpB and tmRNA, the fraction bound = Using this relationshipProblems p3.28/3.24, calculate the fraction of tmRNA bound for SmpB concentrations equal to](https://storage.examlex.com/SM1035/11ebda36_04bf_f4ba_be32_4b58ef10f183_SM1035_00.jpg)
Using this relationshipProblems p3.28/3.24, calculate the fraction of tmRNA bound for SmpB concentrations equal to ![The protein SmpB binds to a special species of tRNA, tmRNA, to eliminate the incomplete proteins made from truncated mRNAs in bacteri a. If the binding of SmpB to tmRNA is plotted as fraction tmRNA bound versus SmpB concentration, one obtains a symmetrical S-shaped curve as shown in Figure Q3-3. This curve is a visual display of a very useful relationship between and concentration, which has broad applicability. The general expression for fraction of ligand bound is derived from the equation for by substituting for [Pr-L] and rearranging. Because the total concentration of ligand is equal to the free ligand ([L]) plus bound ligand ([Pr-L]), For SmpB and tmRNA, the fraction bound = Using this relationshipProblems p3.28/3.24, calculate the fraction of tmRNA bound for SmpB concentrations equal to](https://storage.examlex.com/SM1035/11ebda36_04bf_f4bb_be32_0b1e1b98be76_SM1035_11.jpg)
![The protein SmpB binds to a special species of tRNA, tmRNA, to eliminate the incomplete proteins made from truncated mRNAs in bacteri a. If the binding of SmpB to tmRNA is plotted as fraction tmRNA bound versus SmpB concentration, one obtains a symmetrical S-shaped curve as shown in Figure Q3-3. This curve is a visual display of a very useful relationship between and concentration, which has broad applicability. The general expression for fraction of ligand bound is derived from the equation for by substituting for [Pr-L] and rearranging. Because the total concentration of ligand is equal to the free ligand ([L]) plus bound ligand ([Pr-L]), For SmpB and tmRNA, the fraction bound = Using this relationshipProblems p3.28/3.24, calculate the fraction of tmRNA bound for SmpB concentrations equal to](https://storage.examlex.com/SM1035/11ebda36_04bf_f4bc_be32_bdb6d55f30db_SM1035_00.jpg)
and concentration, which has broad applicability. The general expression for fraction of ligand bound is derived from the equation for by substituting for [Pr-L] and rearranging. Because the total concentration of ligand is equal to the free ligand ([L]) plus bound ligand ([Pr-L]), For SmpB and tmRNA, the fraction bound = Using this relationshipProblems p3.28/3.24, calculate the fraction of tmRNA bound for SmpB concentrations equal to Explanation
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Michaelis-Menten kinetics is a best know...
Molecular Biology Of The Cell 6th Edition by Bruce Alberts, Alexander Johnson, Julian Lewis, David Morgan, Martin Raff, Keith Roberts, Peter Walter
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