Default: Progress in Biophysics and Molecular Biology

ISSN: 0079-6107

Journal Home

Journal Guideline

Progress in Biophysics and Molecular Biology Q1 Unclaimed

Elsevier Ltd United Kingdom
Unfortunately this journal has not been claimed yet. For this reason, some information may be unavailable.

Progress in Biophysics and Molecular Biology is a journal indexed in SJR in Molecular Biology and Biophysics with an H index of 121. It has an SJR impact factor of 1,091 and it has a best quartile of Q1. It is published in English. It has an SJR impact factor of 1,091.

Progress in Biophysics and Molecular Biology focuses its scope in these topics and keywords: structure, paradigm, organisms, optogeneticscomputational, obtained, nuclear, mycobacteria, magnetic, ligand, price, ...

Type: Journal

Type of Copyright:

Languages: English

Open Access Policy:

Type of publications:

Publication frecuency: -

Price

- €

Inmediate OA

NPD

Embargoed OA

- €

Non OA

Metrics

Progress in Biophysics and Molecular Biology

1,091

SJR Impact factor

121

H Index

65

Total Docs (Last Year)

264

Total Docs (3 years)

8499

Total Refs

901

Total Cites (3 years)

224

Citable Docs (3 years)

3.13

Cites/Doc (2 years)

130.75

Ref/Doc

Comments

No comments ... Be the first to comment!

Aims and Scope


structure, paradigm, organisms, optogeneticscomputational, obtained, nuclear, mycobacteria, magnetic, ligand, price, principles, strategies, silico, search, sciences, risk, resonancecardiac, protein, produce, knowledge, integrationin, hub, computational, chemotherapeutic, cardiac, biomedical, attacking, assessment, arrhythmiaan, applications, constraints, designan, founding, evaluation, epistemic, engineering, energeticmetabolic, druginduction, distance, determination,



Best articles by citations

Single-molecule biochemistry coming of age

View more

Targeted intracellular delivery of photosensitizers

View more

Coupled agent-based and finite-element models for predicting scar structure following myocardial infarction

View more

Implementing vertex dynamics models of cell populations in biology within a consistent computational framework

View more

Propagation of normal beats and re-entry in a computational model of ventricular cardiac tissue with regional differences in action potential shape and duration

View more

The binding of antibiotics to RNA

View more

The DNA-dependent protein kinase: A multifunctional protein kinase with roles in DNA double strand break repair and mitosis

View more

New strategies for structure-guided design of AIDS antivirals

View more

A numerical guide to the solution of the bidomain equations of cardiac electrophysiology

View more

Lac repressor and Lac operator

View more

Forging the link between structure and function of electrogenic cotransporters: the renal type IIa Na+/Pi cotransporter as a case study

View more

Homogenization modeling for the mechanics of perfused myocardium

View more
SHOW MORE ARTICLES

Alpha-kinases: analysis of the family and comparison with conventional protein kinases

View more

Modelling cell population growth with applications to cancer therapy in human tumour cell lines

View more

From conductances to neural network properties: Analysis of simple circuits using the hybrid network method

View more

Life as physics and chemistry: A system view of biology

View more

Cell population kinetics in normal and malignant tissues

View more

Creation of the relevant next: How living systems capture the power of the adjacent possible through sign use

View more

HERG binding specificity and binding site structure: evidence from a fragment-based evolutionary computing SAR study

View more

Promiscuous antibodies characterised by their physico-chemical properties: From sequence to structure and back

View more

Targeting tumor micro-environment for design and development of novel anti-angiogenic agents arresting tumor growth

View more

Orientational order determination by internal reflection infrared spectroscopy

View more

Wave propagation in cardiac tissue and effects of intracellular calcium dynamics (computer simulation study)

View more

Quantum Mechanics predicts evolutionary biology

View more

FAQS