Biomolecular NMR Assignments
Brief Name:
BIOMOL NMR ASSIGN
Impact factor:
0.8 (2023)
ISSN:
1874-2718
Home Page:
Open Access:
No
Publisher:
Springer Netherlands
Publication Frequency:
Semiannual
Article Processing Charge:
£2490/$3690/€2890
Publication Start Year:
2007
Annual Articles:
45
Self-citation Rate:
12.5%
Chinese Academy of Sciences SCI Journal Classification:
Major category | Minor category | TOP journal | Review journal |
---|---|---|---|
Q4 BIOLOGICAL |
BIOPHYSICAL | No | No |
Subject Classification:
BIOPHYSICS
CiteScore:
CiteScore | SJR | SNIP | CiteScore ranking | ||||||
---|---|---|---|---|---|---|---|---|---|
1.7 | 0.397 | 0.217 |
|
H-Index:
14
SCI Index Status:
Science Citation Index Expanded
Official Review Time:
Submission to first decision (median): 21 days
PubMed Central:
Submission Site:
Aims and Scope:
Biomolecular NMR Assignments provides a forum for publishing sequence-specific resonance assignments for proteins and nucleic acids as Assignment Notes. Chemical shifts for NMR-active nuclei in macromolecules contain detailed information on molecular conformation and properties.
Publication of resonance assignments in Biomolecular NMR Assignments ensures that these data are deposited into a public database at BioMagResBank (BMRB; https://bmrb.io), where they are available to other researchers.
Assignment Notes are processed for rapid online publication and are published in biannual printed editions in June and December.
Proteins
An Assignment Note generally will be considered for a protein of at least 100 amino acid residues in size based on data collected under non-denaturating conditions for the active form of the protein. Residues added in the cloning process that are not part of the native sequence are not to be included in the residue count, and the size of a homo-oligomeric protein is evaluated on the basis of its monomer chain length.
An Assignment Note for a cooperatively folded protein of less than 100 amino acid residues or of unfolded/non-native states may be considered, provided that the authors present a convincing reason for publication of the data in the cover letter accompanying submission. Assignment Notes documenting assignments of proteins by solid-state NMR spectroscopy are encouraged: use of solid-state NMR is an acceptable justification for assignments of cooperatively folded proteins of less than 100 residues.
Complete backbone assignments and complete or nearly complete side chain assignments are required. Assignments for only the polypeptide backbone in large proteins may be considered, provided that the authors present a convincing reason for publication of the data in the cover letter accompanying submission.
Nucleic Acids
An Assignment Note generally will be considered for a nucleic acid molecule of at least 10 nucleotides; however, Assignment Notes for regular duplex B-form DNA and A-form RNA usually are not acceptable. Authors should describe in the cover letter accompanying submission the significance of the nucleic acid molecule justifying publication of an Assignment Note.
Complete or nearly complete base and sugar assignments are required. More limited assignments, especially in large nucleic acid molecules may be considered, provided that the authors present a convincing reason for publication of the data in the cover letter accompanying submission.
Publication of resonance assignments in Biomolecular NMR Assignments ensures that these data are deposited into a public database at BioMagResBank (BMRB; https://bmrb.io), where they are available to other researchers.
Assignment Notes are processed for rapid online publication and are published in biannual printed editions in June and December.
Proteins
An Assignment Note generally will be considered for a protein of at least 100 amino acid residues in size based on data collected under non-denaturating conditions for the active form of the protein. Residues added in the cloning process that are not part of the native sequence are not to be included in the residue count, and the size of a homo-oligomeric protein is evaluated on the basis of its monomer chain length.
An Assignment Note for a cooperatively folded protein of less than 100 amino acid residues or of unfolded/non-native states may be considered, provided that the authors present a convincing reason for publication of the data in the cover letter accompanying submission. Assignment Notes documenting assignments of proteins by solid-state NMR spectroscopy are encouraged: use of solid-state NMR is an acceptable justification for assignments of cooperatively folded proteins of less than 100 residues.
Complete backbone assignments and complete or nearly complete side chain assignments are required. Assignments for only the polypeptide backbone in large proteins may be considered, provided that the authors present a convincing reason for publication of the data in the cover letter accompanying submission.
Nucleic Acids
An Assignment Note generally will be considered for a nucleic acid molecule of at least 10 nucleotides; however, Assignment Notes for regular duplex B-form DNA and A-form RNA usually are not acceptable. Authors should describe in the cover letter accompanying submission the significance of the nucleic acid molecule justifying publication of an Assignment Note.
Complete or nearly complete base and sugar assignments are required. More limited assignments, especially in large nucleic acid molecules may be considered, provided that the authors present a convincing reason for publication of the data in the cover letter accompanying submission.
Submission Guidelines:
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This page displays information about journals or magazines for reference and study purposes only. It is not the official website of any journal or magazine and does not involve publishing matters. Users must verify any publishing-related inquiries directly with the publisher.
If there are any issues with the content displayed on this page, please contact us at: [email protected], and we will verify and address the matter diligently.