Any feedback?
Please rate this page
(literature.php)
(0/150)

BRENDA support

Literature summary extracted from

  • Lundin, S.; Jemt, A.; Terje-Hegge, F.; Foam, N.; Pettersson, E.; Kaeller, M.; Wirta, V.; Lexow, P.; Lundeberg, J.
    Endonuclease specificity and sequence dependence of type IIS restriction enzymes (2015), PLoS ONE, 10, e0117059 .
    View publication on PubMedView publication on EuropePMC

Application

EC Number Application Comment Organism
3.1.21.4 molecular biology a straightforward, general and automatable model system for studying the activity of restriction endonucleases by using massively parallel sequencing is described, which should be highly applicable for future studies of large sets of restriction endonucleases and their activity Bacillus sp. R
3.1.21.4 molecular biology a straightforward, general and automatable model system for studying the activity of restriction endonucleases by using massively parallel sequencing is described, which should be highly applicable for the future studies of large sets of restriction endonucleases and their activity Lysinibacillus sphaericus
3.1.21.4 molecular biology a straightforward, general and automatable model system for studying the activity of restriction endonucleases by using massively parallel sequencing is described, which should be highly applicable for the future studies of large sets of restriction endonucleases and their activity Bacillus pumilus
3.1.21.4 molecular biology a straightforward, general and automatable model system for studying the activity of restriction endonucleases by using massively parallel sequencing is described, which should be highly applicable for the future studies of large sets of restriction endonucleases and their activity Gluconobacter oxydans
3.1.21.4 molecular biology a straightforward, general and automatable model system for studying the activity of restriction endonucleases by using massively parallel sequencing is described, which should be highly applicable for the future studies of large sets of restriction endonucleases and their activity Flavobacterium aquatile
3.1.21.4 molecular biology a straightforward, general and automatable model system for studying the activity of restriction endonucleases by using massively parallel sequencing is described, which should be highly applicable for the future studies of large sets of restriction endonucleases and their activity Sphingobacterium multivorum
3.1.21.4 molecular biology a straightforward, general and automatable model system for studying the activity of restriction endonucleases by using massively parallel sequencing is described, which should be highly applicable for the future studies of large sets of restriction endonucleases and their activity Methylophilus methylotrophus
3.1.21.4 molecular biology a straightforward, general and automatable model system for studying the activity of restriction endonucleases by using massively parallel sequencing is described, which should be highly applicable for the future studies of large sets of restriction endonucleases and their activity Acinetobacter calcoaceticus
3.1.21.4 molecular biology a straightforward, general and automatable model system for studying the activity of restriction endonucleases by using massively parallel sequencing is described, which should be highly applicable for the future studies of large sets of restriction endonucleases and their activity Brevibacillus brevis
3.1.21.4 molecular biology a straightforward, general and automatable model system for studying the activity of restriction endonucleases by using massively parallel sequencing is described, which should be highly applicable for the future studies of large sets of restriction endonucleases and their activity Planomicrobium okeanokoites
3.1.21.4 molecular biology a straightforward, general and automatable model system for studying the activity of restriction endonucleases by using massively parallel sequencing is described, which should be highly applicable for the future studies of large sets of restriction endonucleases and their activity Escherichia coli

Organism

EC Number Organism UniProt Comment Textmining
3.1.21.4 Acinetobacter calcoaceticus E3VX85
-
-
3.1.21.4 Bacillus pumilus
-
-
-
3.1.21.4 Bacillus pumilus Q8KRW6
-
-
3.1.21.4 Bacillus pumilus 2187a
-
-
-
3.1.21.4 Bacillus sp. R Q6UQ57
-
-
3.1.21.4 Brevibacillus brevis E5LGB4
-
-
3.1.21.4 Escherichia coli P25239
-
-
3.1.21.4 Escherichia coli Q5ZND2
-
-
3.1.21.4 Escherichia coli P15 Q5ZND2
-
-
3.1.21.4 Escherichia coli RFL57 P25239
-
-
3.1.21.4 Flavobacterium aquatile
-
-
-
3.1.21.4 Gluconobacter oxydans
-
-
-
3.1.21.4 Gluconobacter oxydans H-15T
-
-
-
3.1.21.4 Lysinibacillus sphaericus
-
 GC subgroup
-
3.1.21.4 Methylophilus methylotrophus B2MU09
-
-
3.1.21.4 Planomicrobium okeanokoites P14870
-
-
3.1.21.4 Sphingobacterium multivorum
-
-
-
3.1.21.4 Sphingobacterium multivorum RFL21
-
-
-

Synonyms

EC Number Synonyms Comment Organism
3.1.21.4 AcuI
-
 Acinetobacter calcoaceticus
3.1.21.4 acuIRM
-
 Acinetobacter calcoaceticus
3.1.21.4 BbvI
-
 Brevibacillus brevis
3.1.21.4 bbvIR
-
 Brevibacillus brevis
3.1.21.4 BpmI
-
 Bacillus pumilus
3.1.21.4 bpmIR
-
 Bacillus pumilus
3.1.21.4 BpuEI
-
 Bacillus pumilus
3.1.21.4 BseRI
-
 Bacillus sp. R
3.1.21.4 BseRI endonuclease
-
 Bacillus sp. R
3.1.21.4 BsgI
-
 Lysinibacillus sphaericus
3.1.21.4 Eco57I
-
 Escherichia coli
3.1.21.4 eco57IR
-
 Escherichia coli
3.1.21.4 EcoP15I
-
 Escherichia coli
3.1.21.4 ecoP15Ires
-
 Escherichia coli
3.1.21.4 FauI
-
 Flavobacterium aquatile
3.1.21.4 FokI
-
 Planomicrobium okeanokoites
3.1.21.4 fokIR
-
 Planomicrobium okeanokoites
3.1.21.4 GsuI
-
 Gluconobacter oxydans
3.1.21.4 MmeI
-
 Methylophilus methylotrophus
3.1.21.4 mmeIRM
-
 Methylophilus methylotrophus
3.1.21.4 SmuI
-
 Sphingobacterium multivorum