Id |
Subject |
Object |
Predicate |
Lexical cue |
T1 |
0-80 |
Sentence |
denotes |
Transport of an export-defective protein by a highly hydrophobic signal peptide. |
T2 |
81-265 |
Sentence |
denotes |
We have examined the sequence constraints on the amino-terminal region of the mature portion of alkaline phosphatase that are important for its efficient transport in Escherichia coli. |
T3 |
266-390 |
Sentence |
denotes |
Using a homopolymeric sequence of serines to replace 6 residues in this region, a transport-incompetent mutant was produced. |
T4 |
391-519 |
Sentence |
denotes |
Reintroduction of residues from the native sequence which restore charge and beta-turn potential resulted in little improvement. |
T5 |
520-785 |
Sentence |
denotes |
However, by replacing the hydrophobic core of the signal peptide with a homopolymeric series of leucines, not only was transport restored but precursor processing was more efficient than for the wild type and was insensitive to disruption of the protonmotive force. |
T6 |
786-879 |
Sentence |
denotes |
Moreover, we have titrated the signal peptide with leucine to alanine substitutions (Doud, S. |
T7 |
880-892 |
Sentence |
denotes |
K., Chou, M. |
T8 |
893-912 |
Sentence |
denotes |
M., and Kendall, D. |
T9 |
913-1055 |
Sentence |
denotes |
A. (1993) Biochemistry 32, 1251-1256) and determined the minimum level of hydrophobicity necessary to achieve transport of the mutant protein. |
T10 |
1056-1391 |
Sentence |
denotes |
The results indicate that signal peptide hydrophobicity can completely override possible requirements for negatively charged residues and strong beta-turn forming potential in the mature protein and that the polyleucine-containing signal peptide may act as a generic signal sequence for the transport of non-native proteins in E. coli. |
T1 |
0-80 |
Sentence |
denotes |
Transport of an export-defective protein by a highly hydrophobic signal peptide. |
T2 |
81-265 |
Sentence |
denotes |
We have examined the sequence constraints on the amino-terminal region of the mature portion of alkaline phosphatase that are important for its efficient transport in Escherichia coli. |
T3 |
266-390 |
Sentence |
denotes |
Using a homopolymeric sequence of serines to replace 6 residues in this region, a transport-incompetent mutant was produced. |
T4 |
391-519 |
Sentence |
denotes |
Reintroduction of residues from the native sequence which restore charge and beta-turn potential resulted in little improvement. |
T5 |
520-785 |
Sentence |
denotes |
However, by replacing the hydrophobic core of the signal peptide with a homopolymeric series of leucines, not only was transport restored but precursor processing was more efficient than for the wild type and was insensitive to disruption of the protonmotive force. |
T6 |
786-879 |
Sentence |
denotes |
Moreover, we have titrated the signal peptide with leucine to alanine substitutions (Doud, S. |
T7 |
880-892 |
Sentence |
denotes |
K., Chou, M. |
T8 |
893-912 |
Sentence |
denotes |
M., and Kendall, D. |
T9 |
913-1055 |
Sentence |
denotes |
A. (1993) Biochemistry 32, 1251-1256) and determined the minimum level of hydrophobicity necessary to achieve transport of the mutant protein. |
T10 |
1056-1391 |
Sentence |
denotes |
The results indicate that signal peptide hydrophobicity can completely override possible requirements for negatively charged residues and strong beta-turn forming potential in the mature protein and that the polyleucine-containing signal peptide may act as a generic signal sequence for the transport of non-native proteins in E. coli. |