|1.||Zeng, Ximin: 1 article (07/2015)|
|2.||Lin, Jun: 1 article (07/2015)|
|3.||Ardeshna, Devarshi: 1 article (07/2015)|
|4.||Fineran, Peter C: 1 article (10/2012)|
|5.||Chang, James T: 1 article (10/2012)|
|6.||Richter, Corinna: 1 article (10/2012)|
|7.||Rychlik, I: 1 article (01/2006)|
|8.||Gregorova, D: 1 article (01/2006)|
|9.||Hradecka, H: 1 article (01/2006)|
|10.||Qi, Fengxia: 1 article (01/2005)|
10/01/2012 - "Thus, bacteria have evolved numerous 'innate' mechanisms of defense against phage, such as abortive infection or restriction/modification systems. "
01/10/2006 - "Some of them have been shown to increase resistance to phage infection due to the presence of restriction modification systems. "
10/23/2003 - "Here it is suggested that formation of such a barrier is one important biological function of restriction/modification systems, in addition to the classical function of protection of bacteria against bacteriophage infection. "
10/15/1992 - "Restriction-modification systems can protect bacteria against viral infection. "
02/04/1997 - "Type I DNA restriction/modification enzymes protect the bacterial cell from viral infection by cleaving foreign DNA which lacks N6-adenine methylation within a target sequence and maintaining the methylation of the targets on the host chromosome. "
|2.||Contagious Ecthyma (Orf)
02/01/1991 - "A survey of unattributed ORFs in 15 other type II restriction-modification systems revealed three that closely resemble the PvuII ORF. "
01/01/2005 - "pneumoniae, the fifth to seventh Orfs (ComYE-G) match conserved hypothetical proteins from various species of Streptococcus with ComYF possessing a predicted ComGF domain, the eighth Orf (ComYH) shows a strong homology to numerous DNA methyltransferases from restriction/modification systems, and the ninth Orf (ComYI) is homologous to acetate kinase (AckA). "
|3.||Stomach Neoplasms (Stomach Cancer)
|1.||DNA (Deoxyribonucleic Acid)
|2.||Proteins (Proteins, Gene)