BMRB: 2220

Sequential Resonance Assignments of Oxidized High-Potential Iron-Sulfur Protein from Chromatium vinosum

Authors

Nettesheim, D.G., Harder, S.R., Feinberg, B.A., Otvos, J.D.

Assembly

HiPIP

Entity

1. HiPIP (polymer), 85 monomers, 8904.857 Da Detail

SAPANAVAAD NATAIALKYN QDATKSERVA AARPGLPPEE QHCADCQFMQ ADAAGATDEW KGCQLFPGKL INVNGWCASW TLKAG

Formula weight

8904.857 Da

Source organism

Allochromatium vinosum

Exptl. method

NMR

Data set

assigned_chemical_shifts

Chem. Shift Complete

Sequence coverage: 8.2 %, Completeness: 3.8 %, Completeness (bb): 2.9 % Detail

Download

• NMR-STAR v3.1 (partial)
• BMRB/XML (partial)
• CSV
• TSV

Polymer type: polypeptide(L)

	Total	1H
All	3.8 % (18 of 469)	3.8 % (18 of 469)
Backbone	2.9 % (5 of 171)	2.9 % (5 of 171)
Sidechain	4.4 % (13 of 298)	4.4 % (13 of 298)
Aromatic	0.0 % (0 of 34)	0.0 % (0 of 34)
Methyl	2.3 % (1 of 43)	2.3 % (1 of 43)

1. HiPIP

SAPANAVAAD NATAIALKYN QDATKSERVA AARPGLPPEE QHCADCQFMQ ADAAGATDEW KGCQLFPGKL INVNGWCASW TLKAG

Show sample condition

Sample

Temperature 308 K, pH 7

Hide sample codition

Release date

1995-07-30

Citation

Sequential resonance assignments of oxidized high-potential iron-sulfur protein from Chromatium vinosum
Nettesheim, D.G., Harder, S.R., Feinberg, B.A., Otvos, J.D.
Biochemistry (1992), 31, 1234-1244, PubMed 1734968 , DOI 10.1021/bi00119a037 , Abstract

Related entities 1. HiPIP, : 1 : 6 : 36 entities Detail

Experiments performed 1 experiments Detail

Chemical shift validation 3 contents Detail