All users should cite references [1] and [2] below:
Fox NK, Brenner SE, Chandonia JM. 2014.
SCOPe: Structural Classification of Proteins—extended, integrating SCOP and ASTRAL data and classification of new structures.
Nucleic Acids Research 42:D304-309. doi: 10.1093/nar/gkt1240.
[PDF].
Newer features of SCOPe are described in:
Chandonia JM, Guan L, Lin S, Yu C, Fox NK, Brenner SE. 2022.
SCOPe: Improvements to the Structural Classification of Proteins—extended Database to facilitate Variant Interpretation and Machine Learning.
Nucleic Acids Research 50:D553–559. doi: 10.1093/nar/gkab1054.
[PDF], and
Chandonia JM, Fox NK, Brenner SE. 2019.
SCOPe: classification of large macromolecular structures in the structural classification of proteins—extended database.
Nucleic Acids Research gky1134. doi: 10.1093/nar/gky1134.
[PDF], and
Chandonia JM, Fox NK, Brenner SE. 2017.
SCOPe:
Manual Curation and Artifact Removal in the Structural Classification of Proteins—extended Database.
Journal of Molecular Biology 429: 348-355. doi: 10.1016/j.jmb.2016.11.023.
[PDF].
Users of SCOP (version 1) releases should cite:
Murzin AG, Brenner SE, Hubbard TJP, Chothia C. 1995.
SCOP:
a structural classification of proteins database for the investigation
of sequences and structures.
Journal of Molecular Biology 247:536-540.
[PDF].
Additional References
This paper discusses the principles behind SCOP
and how to use it:
Brenner SE, Chothia C, Hubbard TJP, Murzin AG. 1996. Understanding protein structure: Using SCOP
for fold interpretation. Chap. 37 in: Doolittle RF, ed.
Computer Methods for Macromolecular Sequence Analysis. Methods in Enzymology. Vol. 266. Orlando, FL: Academic Press. 635-643.
[PDF].
This paper discusses how people have used SCOP
and SCOPe in recent years:
Fox NK, Brenner SE, Chandonia JM. 2015.
The value of protein structure classification information—surveying the scientific literature.
Proteins. doi: 10.1002/prot.24915.
[PDF].
Further development of SCOP
is described in:
Lo Conte L, Brenner SE, Hubbard TJP, Chothia C, Murzin AG. 2002. SCOP
database in 2002: refinements accommodate structural genomics.
Nucleic Acids Research 30: 264-267.
[PDF],
Andreeva A, Howorth D, Brenner SE, Hubbard TJP, Chothia C, Murzin
AG. 2004. SCOP database in 2004:
refinements integrate structure and sequence family data.
Nucleic Acids Research 32:D226-D229.
[PDF], and
Andreeva A, Howorth D, Chandonia JM, Brenner SE, Hubbard TJP,
Chothia C, Murzin AG. 2008. Data growth and its impact on the
SCOP database: new developments.
Nucleic Acids Research 36:D419-425.
[PDF].
Additional documentation about the ASTRAL
sequences and subsets:
Chandonia JM, Hon G, Walker NS, Lo Conte L, Koehl
P, Levitt M, Brenner SE. 2004. The ASTRAL
compendium in 2004.
Nucleic Acids Research 32:D189-D192.
[PDF],
Chandonia JM, Walker NS, Lo Conte L, Koehl P,
Levitt M, Brenner SE. 2002. ASTRAL
compendium enhancements.
Nucleic Acids Research 30:260-263.
[PDF], and
Hubbard TJP, Murzin AG, Brenner SE, Chothia C.
1997. SCOP: a structural
classification of proteins database.
Nucleic Acids Research 25:236-239.
[PDF],
Hubbard TJP, Ailey B, Brenner SE, Murzin AG, Chothia C.
1998. SCOP, Structural Classification
of Proteins database: applications to evaluation of the effectiveness
of sequence alignment methods and statistics of protein structural data.
Acta Crystallographica D54:1147-1154.
[PDF],
Hubbard TJP, Ailey B, Brenner SE, Murzin AG, Chothia C.
1999. SCOP: a structural
classification of proteins database.
Nucleic Acids Research 27:254-256.
[PDF], and
Lo Conte L, Ailey B, Hubbard TJP, Brenner SE, Murzin AG, Chothia C.
2000. SCOP: a structural
classification of proteins database.
Nucleic Acids Research 28:257-259.
[PDF].