scholarly article | Q13442814 |
P2093 | author name string | Lindsay Lovasco | |
Richard D Morgan | |||
Tanya K Bhatia | |||
Theodore B Davis | |||
P2860 | cites work | Structure and function of type II restriction endonucleases | Q24555230 |
FokI dimerization is required for DNA cleavage | Q24657843 | ||
Purification and characterisation of a novel DNA methyltransferase, M.AhdI | Q24671538 | ||
A nomenclature for restriction enzymes, DNA methyltransferases, homing endonucleases and their genes | Q24684053 | ||
REBASE--enzymes and genes for DNA restriction and modification | Q24684227 | ||
How to measure and predict the molar absorption coefficient of a protein | Q27860551 | ||
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Fast-scan atomic force microscopy reveals that the type III restriction enzyme EcoP15I is capable of DNA translocation and looping | Q30479841 | ||
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Many type IIs restriction endonucleases interact with two recognition sites before cleaving DNA. | Q34103727 | ||
Beyond Watson and Crick: DNA methylation and molecular enzymology of DNA methyltransferases | Q34587622 | ||
M.EcoPl5 methylates the second adenine in its recognition sequence | Q35772916 | ||
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Use of specific oligonucleotide duplexes to stimulate cleavage of refractory DNA sites by restriction endonucleases | Q38321306 | ||
Functional analysis of putative restriction-modification system genes in the Helicobacter pylori J99 genome | Q39584191 | ||
Unidirectional translocation from recognition site and a necessary interaction with DNA end for cleavage by Type III restriction enzyme | Q40404726 | ||
Isolation and computer-aided characterization of MmeI, a type II restriction endonuclease from Methylophilus methylotrophus | Q40417410 | ||
Predictive motifs derived from cytosine methyltransferases | Q40448394 | ||
Purification and properties of the Eco57I restriction endonuclease and methylase--prototypes of a new class (type IV) | Q40535626 | ||
Cloning and sequence analysis of the genes coding for Eco57I type IV restriction-modification enzymes | Q40535631 | ||
Restriction endonucleases that bridge and excise two recognition sites from DNA. | Q41770197 | ||
DNA looping and translocation provide an optimal cleavage mechanism for the type III restriction enzymes | Q42002446 | ||
Engineering of restriction endonucleases: using methylation activity of the bifunctional endonuclease Eco57I to select the mutant with a novel sequence specificity | Q44356433 | ||
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Type III restriction enzymes need two inversely oriented recognition sites for DNA cleavage | Q55043499 | ||
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MmeI, a class-IIS restriction endonuclease: Purification and characterization | Q71866648 | ||
Crystallization and preliminary X-ray analysis of restriction endonuclease FokI bound to DNA | Q73094721 | ||
FokI requires two specific DNA sites for cleavage | Q74326486 | ||
DNA cleavage reactions by type II restriction enzymes that require two copies of their recognition sites | Q74328897 | ||
Two intertwined methylation activities of the MmeI restriction-modification class-IIS system from Methylophilus methylotrophus | Q77702970 | ||
P433 | issue | 20 | |
P407 | language of work or name | English | Q1860 |
P1104 | number of pages | 13 | |
P304 | page(s) | 6558-6570 | |
P577 | publication date | 2008-10-17 | |
P1433 | published in | Nucleic Acids Research | Q135122 |
P1476 | title | MmeI: a minimal Type II restriction-modification system that only modifies one DNA strand for host protection | |
P478 | volume | 36 |