PDB 6jma

PDB Information

PDB6JMA
MethodELECTRON MICROSCOPY
Host OrganismEscherichia coli DH5[alpha]
Gene Sourcesynthetic construct
Primary Citation
Structural basis of recognition and destabilization of the histone H2B ubiquitinated nucleosome by the DOT1L histone H3 Lys79 methyltransferase.
Jang, S., Kang, C., Yang, H.S., Jung, T., Hebert, H., Chung, K.Y., Kim, S.J., Hohng, S., Song, J.J.
Genes Dev.
HeaderGene Regulation
Released2019-03-07
Resolution6.800
CATH Insert Date19 May, 2019

PDB Images (13)

PDB Prints

PDB Chains (12)

Chain ID Date inserted into CATH CATH Status
A 19 May, 2019 Rejected
B 19 May, 2019 Rejected
C 19 May, 2019 Rejected
D 19 May, 2019 Rejected
E 19 May, 2019 Rejected
F 19 May, 2019 Rejected
G 19 May, 2019 Rejected
H 19 May, 2019 Rejected
I 19 May, 2019 Rejected
J 19 May, 2019 Rejected
X 19 May, 2019 Rejected
Y 19 May, 2019 Rejected

CATH Domains (0)

Domain ID Date inserted into CATH Superfamily CATH Status

UniProtKB Entries (10)

Accession Gene ID Taxon Description
P02281 H2B11_XENLA Xenopus laevis Histone H2B 1.1
P62799 H4_XENLA Xenopus laevis Histone H4
Q6AZJ8 Q6AZJ8_XENLA Xenopus laevis Histone H2A
P62799 H4_XENLA Xenopus laevis Histone H4
P02281 H2B11_XENLA Xenopus laevis Histone H2B 1.1
Q6AZJ8 Q6AZJ8_XENLA Xenopus laevis Histone H2A
Q8TEK3 DOT1L_HUMAN Homo sapiens Histone-lysine N-methyltransferase, H3 lysine-79 specific
P0CG47 UBB_HUMAN Homo sapiens Polyubiquitin-B
P84233 H32_XENLA Xenopus laevis Histone H3.2
P84233 H32_XENLA Xenopus laevis Histone H3.2