Gunnar von Heijne | Academic Influence

Gunnar von Heijne's AcademicInfluence.com Rankings

Gunnar von Heijne

Biology

#800

World Rank

#1383

Historical Rank

Molecular Biology

#67

World Rank

#69

Historical Rank

Biochemistry

#80

World Rank

#106

Historical Rank

biology Degrees

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Biology

Gunnar von Heijne's Degrees

PhD Biochemistry Stockholm University
Bachelors Chemistry Stockholm University

Why Is Gunnar von Heijne Influential?

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According to Wikipedia, Professor Nils Gunnar Hansson von Heijne, born 10 June 1951 in Gothenburg, is a Swedish scientist working on signal peptides, membrane proteins and bioinformatics at the Stockholm Center for Biomembrane Research at Stockholm University.

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Gunnar von Heijne's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Predicting transmembrane protein topology with a hidden Markov model: application to complete genomes. (2001) (11236)
Tissue-based map of the human proteome (2015) (9179)
SignalP 4.0: discriminating signal peptides from transmembrane regions (2011) (8414)
Improved prediction of signal peptides: SignalP 3.0. (2004) (6574)
Identification of prokaryotic and eukaryotic signal peptides and prediction of their cleavage sites. (1997) (5624)
Predicting subcellular localization of proteins based on their N-terminal amino acid sequence. (2000) (4307)
Locating proteins in the cell using TargetP, SignalP and related tools (2007) (3216)
A new method for predicting signal sequence cleavage sites. (1986) (3163)
A Hidden Markov Model for Predicting Transmembrane Helices in Protein Sequences (1998) (2552)
SignalP 5.0 improves signal peptide predictions using deep neural networks (2019) (2398)
ChloroP, a neural network‐based method for predicting chloroplast transit peptides and their cleavage sites (1999) (1866)
Patterns of Amino Acids near Signal‐Sequence Cleavage Sites (1983) (1511)
Genome‐wide analysis of integral membrane proteins from eubacterial, archaean, and eukaryotic organisms (1998) (1490)
A new method for predicting signal sequence cleavage sites. (1986) (1471)
Membrane protein structure prediction: Hydrophobicity analysis and the positive-inside rule (1992) (1317)
Signal sequences: The limits of variation (1985) (1258)
Domain structure of mitochondrial and chloroplast targeting peptides. (1989) (1110)
Prediction of transmembrane alpha-helices in prokaryotic membrane proteins: the dense alignment surface method. (1997) (1099)
Prediction of lipoprotein signal peptides in Gram‐negative bacteria (2003) (1090)
Feature-based prediction of non-classical and leaderless protein secretion. (2004) (1073)
Signal sequences. The limits of variation. (1985) (998)
Recognition of transmembrane helices by the endoplasmic reticulum translocon (2005) (952)
Membrane protein structure prediction. Hydrophobicity analysis and the positive-inside rule. (1992) (925)
The signal peptide. (1990) (865)
The distribution of positively charged residues in bacterial inner membrane proteins correlates with the trans‐membrane topology (1986) (839)
A Neural Network Method for Identification of Prokaryotic and Eukaryotic Signal Peptides and Prediction of their Cleavage Sites (1997) (783)
Sequence differences between glycosylated and non-glycosylated Asn-X-Thr/Ser acceptor sites: implications for protein engineering (1990) (712)
Topogenic signals in integral membrane proteins. (1988) (692)
Mitochondrial targeting sequences may form amphiphilic helices. (1986) (663)
Molecular code for transmembrane-helix recognition by the Sec61 translocon (2007) (653)
Patterns of amino acids near signal-sequence cleavage sites. (1983) (651)
How proteins adapt to a membrane-water interface. (2000) (637)
Machine learning approaches for the prediction of signal peptides and other protein sorting signals. (1999) (628)
Control of topology and mode of assembly of a polytopic membrane protein by positively charged residues (1989) (538)
Global Topology Analysis of the Escherichia coli Inner Membrane Proteome (2005) (516)
The signal peptide. (1990) (516)
Central Functions of the Lumenal and Peripheral Thylakoid Proteome of Arabidopsis Determined by Experimentation and Genome-Wide Prediction Article, publication date, and citation information can be found at www.plantcell.org/cgi/doi/10.1105/tpc.010304. (2002) (467)
Determination of the distance between the oligosaccharyltransferase active site and the endoplasmic reticulum membrane. (1993) (446)
How signal sequences maintain cleavage specificity. (1984) (440)
Membrane-protein topology (2006) (398)
YidC, the Escherichia coli homologue of mitochondrial Oxa1p, is a component of the Sec translocase (2000) (386)
Detecting sequence signals in targeting peptides using deep learning (2019) (376)
A conserved cleavage‐site motif in chloroplast transit peptides (1990) (375)
Coping with cold: the genome of the versatile marine Antarctica bacterium Pseudoalteromonas haloplanktis TAC125. (2005) (371)
Evidence for a protein transported through the secretory pathway en route to the higher plant chloroplast (2005) (362)
Molecular recognition of a single sphingolipid species by a protein’s transmembrane domain (2012) (325)
Prediction of the human membrane proteome (2010) (324)
Transcending the impenetrable: How proteins come to terms with membranes (1988) (321)
The Escherichia coli SRP and SecB targeting pathways converge at the translocon (1998) (311)
Prediction of membrane-protein topology from first principles (2008) (310)
Competition between Sec‐ and TAT‐dependent protein translocation in Escherichia coli (1999) (309)
Cleavage-site motifs in mitochondrial targeting peptides. (1990) (306)
SignalP 6.0 predicts all five types of signal peptides using protein language models (2022) (297)
GFP-based optimization scheme for the overexpression and purification of eukaryotic membrane proteins in Saccharomyces cerevisiae (2008) (291)
Trans‐membrane Translocation of Proteins (1979) (289)
Proline kinks in transmembrane α-helices☆ (1991) (276)
Topology, Subcellular Localization, and Sequence Diversity of the Mlo Family in Plants* (1999) (275)
Predicting the topology of eukaryotic membrane proteins. (1993) (275)
Mechanisms of integral membrane protein insertion and folding. (2015) (275)
Mitochondrial targeting sequences may form amphiphilic helices. (1986) (275)
Species‐specific variation in signal peptide design Implications for protein secretion in foreign hosts (1989) (269)
Sequence determinants of cytosolic N-terminal protein processing. (1986) (255)
Amino acid distributions around O-linked glycosylation sites. (1991) (252)
Membrane protein structure: prediction versus reality. (2007) (250)
Topology of the Membrane-Associated Hepatitis C Virus Protein NS4B (2003) (243)
A receptor component of the chloroplast protein translocation machinery. (1994) (242)
Green fluorescent protein as an indicator to monitor membrane protein overexpression in Escherichia coli (2001) (234)
High-throughput fluorescent-based optimization of eukaryotic membrane protein overexpression and purification in Saccharomyces cerevisiae (2007) (228)
Chloroplast transit peptides the perfect random coil? (1991) (223)
Reliability measures for membrane protein topology prediction algorithms. (2003) (223)
How signal sequences maintain cleavage specificity. (1984) (220)
Signal peptidases in prokaryotes and eukaryotes--a new protease family. (1992) (219)
Anionic phospholipids are determinants of membrane protein topology (1997) (219)
Rapid topology mapping of Escherichia coli inner-membrane proteins by prediction and PhoA/GFP fusion analysis (2002) (215)
Interface connections of a transmembrane voltage sensor. (2005) (215)
Protein Complexes of the Escherichia coli Cell Envelope* (2005) (212)
Cotranslational Protein Folding inside the Ribosome Exit Tunnel (2015) (211)
A Nine-transmembrane Domain Topology for Presenilin 1* (2005) (209)
Identification and evolution of dual-topology membrane proteins (2006) (209)
Membrane topology of the Drosophila OR83b odorant receptor (2007) (207)
Membrane proteins: from sequence to structure. (1990) (206)
Molecular Mechanism of Membrane Protein Integration into the Endoplasmic Reticulum (1997) (201)
Nascent membrane and presecretory proteins synthesized in Escherichia coli associate with signal recognition particle and trigger factor (1997) (195)
How translocons select transmembrane helices. (2008) (194)
Fine-tuning the topology of a polytopic membrane protein: Role of positively and negatively charged amino acids (1990) (191)
Membrane Insertion of a Potassium-Channel Voltage Sensor (2005) (189)
Prediction of organellar targeting signals. (2001) (183)
RIFINs are adhesins implicated in severe Plasmodium falciparum malaria (2015) (179)
Assembly of a cytoplasmic membrane protein in Escherichia coli is dependent on the signal recognition particle (1996) (169)
Expression of an olfactory receptor in Escherichia coli: purification, reconstitution, and ligand binding. (1996) (165)
Structures of N-terminally acetylated proteins. (1985) (164)
Chloroplast transit peptides from the green alga Chlamydomonas reinhardtii share features with both mitochondrial and higher plant chloroplast presequences (1990) (164)
The structure of signal peptides from bacterial lipoproteins. (1989) (160)
Topological “frustration” in multispanning E. coli inner membrane proteins (1994) (160)
The structure of signal peptides from bacterial lipoproteins. (1989) (158)
A study of the membrane-water interface region of membrane proteins. (2005) (155)
Membrane protein topology: effects of delta mu H+ on the translocation of charged residues explain the ‘positive inside’ rule. (1994) (154)
Analysis of the distribution of charged residues in the N‐terminal region of signal sequences: implications for protein export in prokaryotic and eukaryotic cells. (1984) (151)
A Nascent Secretory Protein 5 Traverse the Ribosome/Endoplasmic Reticulum Translocase Complex as an Extended Chain (*) (1996) (151)
The signal peptide (2005) (150)
Sec dependent and sec independent assembly of E. coli inner membrane proteins: the topological rules depend on chain length. (1993) (150)
Topological Rules for Membrane Protein Assembly in Eukaryotic Cells* (1997) (149)
Proline-induced disruption of a transmembrane alpha-helix in its natural environment. (1998) (149)
Architecture of helix bundle membrane proteins: An analysis of cytochrome c oxidase from bovine mitochondria (1997) (148)
A biphasic pulling force acts on transmembrane helices during translocon-mediated membrane integration (2012) (148)
A global topology map of the Saccharomyces cerevisiae membrane proteome. (2006) (148)
Transcending the impenetrable: how proteins come to terms with membranes. (1988) (147)
Control of Membrane Protein Topology by a Single C-Terminal Residue (2010) (146)
The aromatic residues Trp and Phe have different effects on the positioning of a transmembrane helix in the microsomal membrane. (1999) (144)
Photocross-linking of nascent chains to the STT3 subunit of the oligosaccharyltransferase complex (2003) (143)
Transmembrane helices before, during, and after insertion. (2005) (140)
On the Hydrophobic Nature of Signal Sequences (1981) (138)
The COOH-terminal ends of internal signal and signal-anchor sequences are positioned differently in the ER translocase (1994) (138)
Differential use of the signal recognition particle translocase targeting pathway for inner membrane protein assembly in Escherichia coli. (1998) (136)
Comparative analysis of amino acid distributions in integral membrane proteins from 107 genomes (2005) (134)
The machinery of membrane protein assembly. (2004) (133)
The membrane protein universe: what's out there and why bother? (2007) (132)
Membrane proteins: from sequence to structure. (1994) (131)
Emulating Membrane Protein Evolution by Rational Design (2007) (128)
Membrane assembly of the cannabinoid receptor 1: impact of a long N-terminal tail. (2003) (123)
Prediction of N-terminal protein sorting signals. (1997) (121)
Properties of N-terminal tails in G-protein coupled receptors: a statistical study. (1995) (118)
Membrane Topology Mapping of Vitamin K Epoxide Reductase by in Vitro Translation/Cotranslocation* (2005) (117)
Membrane proteins: the amino acid composition of membrane-penetrating segments. (1981) (116)
Why mitochondria need a genome (1986) (115)
Consensus predictions of membrane protein topology (2000) (115)
Membrane topology of the human seipin protein (2006) (115)
A Brief History of Protein Sorting Prediction (2019) (114)
Experimentally based topology models for E. coli inner membrane proteins (2004) (114)
Global profiling of SRP interaction with nascent polypeptides (2016) (110)
Positively and negatively charged residues have different effects on the position in the membrane of a model transmembrane helix. (1998) (110)
Arginine in Membranes: The Connection Between Molecular Dynamics Simulations and Translocon-Mediated Insertion Experiments (2010) (110)
In silico prediction of the peroxisomal proteome in fungi, plants and animals. (2003) (110)
Forced transmembrane orientation of hydrophilic polypeptide segments in multispanning membrane proteins. (1998) (105)
Turns in transmembrane helices: determination of the minimal length of a "helical hairpin" and derivation of a fine-grained turn propensity scale. (1999) (102)
Membrane Topology of the 60-kDa Oxa1p Homologue fromEscherichia coli * (1998) (101)
Structural Bioinformatics-Based Design of Selective , Irreversible Kinase Inhibitors (2005) (100)
Somatic acquisition and signaling of TGFBR1*6A in cancer. (2005) (99)
Different conformations of nascent polypeptides during translocation across the ER membrane (2000) (98)
In sequence (1989) (97)
Towards a comparative anatomy of N-terminal topogenic protein sequences (1986) (96)
The efficiency of the uncleaved secretion signal in the plasminogen activator inhibitor type 2 protein can be enhanced by point mutations that increase its hydrophobicity. (1991) (95)
Saccharomyces cerevisiae mitochondria lack a bacterial‐type Sec machinery (1996) (95)
Membrane insertion of marginally hydrophobic transmembrane helices depends on sequence context. (2010) (94)
Biogenesis of inner membrane proteins in Escherichia coli. (2005) (92)
Net N-C charge imbalance may be important for signal sequence function in bacteria. (1986) (92)
A 30-residue-long "export initiation domain" adjacent to the signal sequence is critical for protein translocation across the inner membrane of Escherichia coli. (1991) (92)
Net N-C charge imbalance may be important for signal sequence function in bacteria (1986) (91)
A turn propensity scale for transmembrane helices. (1999) (90)
The ‘positive‐inside rule’ applies to thylakoid membrane proteins (1991) (89)
Insertion of short transmembrane helices by the Sec61 translocon (2009) (88)
Chapter 4 Structural and Thermodynamic Aspects of the Transfer of Proteins into and across Membranes (1985) (86)
Human neuropeptide Y signal peptide gain-of-function polymorphism is associated with increased body mass index: possible mode of function (2005) (86)
Cotranslational folding of membrane proteins probed by arrest-peptide–mediated force measurements (2013) (85)
Translation rate modification by preferential codon usage: intragenic position effects. (1987) (85)
Determination of the Border between the Transmembrane and Cytoplasmic Domains of Human Integrin Subunits* (1999) (84)
Different positively charged amino acids have similar effects on the topology of a polytopic transmembrane protein in Escherichia coli. (1992) (84)
Proline kinks in transmembrane alpha-helices. (1991) (84)
Protein transport: Life and death of a signal peptide (1998) (84)
Asn‐ and Asp‐mediated interactions between transmembrane helices during translocon‐mediated membrane protein assembly (2006) (83)
The membrane protein universe: what's out there and why bother? (2007) (82)
Defining a similarity threshold for a functional protein sequence pattern: The signal peptide cleavage site (1996) (82)
SPONTANEOUS TRANSMEMBRANE HELIX INSERTION THERMODYNAMICALLY MIMICS TRANSLOCON-GUIDED INSERTION (2014) (81)
Cotranslational folding of spectrin domains via partially structured states (2017) (81)
Analysis of the distribution of charged residues in the N-terminal region of signal sequences: implications for protein export in prokaryotic and eukaryotic cells. (1984) (80)
Disulfide Bond Formation and Cysteine Exclusion in Gram-positive Bacteria*♦ (2009) (80)
Glycosylation Efficiency of Asn-Xaa-Thr Sequons Depends Both on the Distance from the C Terminus and on the Presence of a Downstream Transmembrane Segment* (2000) (80)
Protein targeting signals. (1990) (80)
Molecular code for protein insertion in the endoplasmic reticulum membrane is similar for Nin–Cout and Nout–Cin transmembrane helices (2008) (79)
Why mitochondria need a genome (1986) (77)
Recent advances in the understanding of membrane protein assembly and structure (1999) (77)
The distribution of charged amino acids in mitochondrial inner-membrane proteins suggests different modes of membrane integration for nuclearly and mitochondrially encoded proteins. (1992) (76)
A 12-Residue-long Polyleucine Tail Is Sufficient to Anchor Synaptobrevin to the Endoplasmic Reticulum Membrane (*) (1996) (76)
Disassembly of the divisome in Escherichia coli: evidence that FtsZ dissociates before compartmentalization (2014) (75)
Contribution of positively charged flanking residues to the insertion of transmembrane helices into the endoplasmic reticulum (2008) (75)
Forces involved in the assembly and stabilization of membrane proteins 1 (1992) (74)
Trans-membrane translocation of proteins. The direct transfer model. (1979) (73)
Topology Models for 37 Saccharomyces cerevisiaeMembrane Proteins Based on C-terminal Reporter Fusions and Predictions* (2003) (72)
Principles of membrane protein assembly and structure. (1996) (72)
Folding pathway of an Ig domain is conserved on and off the ribosome (2018) (70)
Inefficient SRP Interaction with a Nascent Chain Triggers a mRNA Quality Control Pathway (2014) (70)
The E. coli SRP: preferences of a targeting factor (1997) (69)
Contribution of hydrophobic and electrostatic interactions to the membrane integration of the Shaker K+ channel voltage sensor domain (2007) (69)
Sec‐independent translocation of a 100‐residue periplasmic N‐terminal tail in the E. coli inner membrane protein proW. (1994) (67)
MEMBRANE PROTEINS : FROM SEQUENCE TO STRUCTURE (1994) (67)
Charge-driven dynamics of nascent chain movement through the SecYEG translocon (2014) (66)
Inhibition of Protein Translocation across the Endoplasmic Reticulum Membrane by Sterols* (2001) (66)
The force-sensing peptide VemP employs extreme compaction and secondary structure formation to induce ribosomal stalling (2017) (65)
Determination of N- and C-terminal Borders of the Transmembrane Domain of Integrin Subunits* (2004) (65)
Feature‐extraction from endopeptidase cleavage sites in mitochondrial targeting peptides (1998) (64)
Breaking the camel's back: proline-induced turns in a model transmembrane helix. (1998) (62)
Repositioning of transmembrane alpha-helices during membrane protein folding. (2010) (62)
Ala‐insertion scanning mutagenesis of the glycophorin a transmembrane helix: A rapid way to map helix‐helix interactions in integral membrane proteins (1996) (62)
Feature-extraction from endopeptidase cleavage sites in mitochondrial targeting peptides. (1998) (62)
Mapping of catalytically important domains in Escherichia coli leader peptidase. (1990) (61)
Insertion and Topology of a Plant Viral Movement Protein in the Endoplasmic Reticulum Membrane* (2002) (61)
A signal peptide with a proline next to the cleavage site inhibits leader peptidase when present in a sec‐independent protein (1992) (61)
Trigger Factor Reduces the Force Exerted on the Nascent Chain by a Cotranslationally Folding Protein. (2016) (60)
The code for directing proteins for translocation across ER membrane: SRP cotranslationally recognizes specific features of a signal sequence. (2015) (59)
Small protein domains fold inside the ribosome exit tunnel (2016) (59)
Stop-transfer function of pseudo-random amino acid segments during translocation across prokaryotic and eukaryotic membranes. (1998) (59)
Sequence-based feature prediction and annotation of proteins (2009) (59)
Principles of membrane protein assembly and structure. (1996) (59)
The Internal Repeats in the Na+/Ca2+Exchanger-related Escherichia coli Protein YrbG Have Opposite Membrane Topologies* (2001) (57)
Recent advances in the understanding of membrane protein assembly and structure. (1999) (57)
Orientational preferences of neighboring helices can drive ER insertion of a marginally hydrophobic transmembrane helix. (2012) (57)
In vivo evaluation of the biodistribution of 11C-labeled PD153035 in rats without and with neuroblastoma implants. (1999) (57)
Phosphatidylethanolamine mediates insertion of the catalytic domain of leader peptidase in membranes (1998) (56)
Protein targeting signals. (1990) (55)
Experimentally constrained topology models for 51,208 bacterial inner membrane proteins. (2005) (55)
Directionality in protein translocation across membranes: the N-tail phenomenon. (1995) (55)
Architecture of β‐barrel membrane proteins: Analysis of trimeric porins (1998) (54)
Apolar surface area determines the efficiency of translocon-mediated membrane-protein integration into the endoplasmic reticulum (2011) (54)
Identification of novel sphingolipid-binding motifs in mammalian membrane proteins. (2014) (54)
Assembly of the cytochrome bo3 complex. (2007) (53)
New Escherichia coli outer membrane proteins identified through prediction and experimental verification (2006) (53)
Alcohol activates the cerebral reward system in man. (1998) (53)
Life and death of a signal peptide (1998) (53)
Trans-membrane translocation of proteins. A detailed physico-chemical analysis. (1980) (52)
Membrane-protein topology (2006) (52)
Mitochondrial targeting sequences why ‘non‐amphiphilic’ peptides may still be amphiphilic (1988) (52)
Effects of protein size, thermodynamic stability, and net charge on cotranslational folding on the ribosome (2018) (52)
Membrane proteins: the amino acid composition of membrane-penetrating segments. (1981) (51)
Determination of the membrane topology of Ost4p and its subunit interactions in the oligosaccharyltransferase complex in Saccharomyces cerevisiae (2003) (50)
Features of transmembrane segments that promote the lateral release from the translocase into the lipid phase. (2007) (50)
Membrane-integration characteristics of two ABC transporters, CFTR and P-glycoprotein. (2009) (49)
Exploration of the Arrest Peptide Sequence Space Reveals Arrest-enhanced Variants* (2015) (49)
Divergent evolution of membrane protein topology: the Escherichia coli RnfA and RnfE homologues. (1999) (48)
Effect of acute hyperketonemia on the cerebral uptake of ketone bodies in nondiabetic subjects and IDDM patients. (2002) (48)
Functionality of the voltage-gated proton channel truncated in S4 (2009) (47)
Three-dimensional model for the membrane domain of Escherichia coli leader peptidase based on disulfide mapping. (1993) (47)
Membrane protein structural biology – How far can the bugs take us? (Review) (2007) (47)
Towards a comparative anatomy of N-terminal topogenic protein sequences. (1986) (47)
Distant Downstream Sequence Determinants Can Control N-tail Translocation during Protein Insertion into the Endoplasmic Reticulum Membrane* (2000) (47)
Membrane protein assembly (1995) (46)
The shape of the bacterial ribosome exit tunnel affects cotranslational protein folding (2018) (46)
TIM23-mediated insertion of transmembrane α-helices into the mitochondrial inner membrane (2011) (45)
The cytoplasmic domain of Escherichia coli leader peptidase is a "translocation poison" sequence. (1988) (45)
Improved membrane protein topology prediction by domain assignments (2005) (45)
Inter-helical hydrogen bond formation during membrane protein integration into the ER membrane. (2003) (45)
Phenotypic effects of membrane protein overexpression in Saccharomyces cerevisiae. (2006) (43)
PONGO: a web server for multiple predictions of all-alpha transmembrane proteins (2006) (43)
Membrane Topology of the STT3 Subunit of the Oligosaccharyl Transferase Complex* (2005) (43)
Analysis and prediction of mitochondrial targeting peptides. (2001) (43)
The Signal Recognition Particle-targeting Pathway Does Not Necessarily Deliver Proteins to the Sec-translocase inEscherichia coli * (1999) (42)
Improved production of membrane proteins in Escherichia coli by selective codon substitutions (2013) (41)
Coordinated disassembly of the divisome complex in Escherichia coli (2016) (41)
De novo design of integral membrane proteins (1994) (40)
Positively charged amino acids placed next to a signal sequence block protein translocation more efficiently in Escherichia coli than in mammalian microsomes (1993) (38)
Structural and mutational analysis of the ribosome-arresting human XBP1u (2019) (38)
How Hydrophobic Is Alanine?* (2003) (38)
Insertion of a Bacterial Secondary Transport Protein in the Endoplasmic Reticulum Membrane* (1999) (38)
Antiparallel Dimers of the Small Multidrug Resistance Protein EmrE Are More Stable Than Parallel Dimers* (2012) (37)
Prediction of partial membrane protein topologies using a consensus approach (2002) (37)
Structure and topology around the cleavage site regulate post-translational cleavage of the HIV-1 gp160 signal peptide (2017) (36)
Efficient Glycosylphosphatidylinositol (GPI) Modification of Membrane Proteins Requires a C-terminal Anchoring Signal of Marginal Hydrophobicity* (2012) (35)
LumenP—A neural network predictor for protein localization in the thylakoid lumen (2003) (35)
Helix-helix packing in a membrane-like environment. (1997) (35)
Analysis of transmembrane helix integration in the endoplasmic reticulum in S. cerevisiae. (2009) (34)
Signals for protein targeting into and across membranes. (1994) (33)
On the hydrophobic nature of signal sequences. (1981) (33)
Mapping the Interaction of the STT3 Subunit of the Oligosaccharyl Transferase Complex with Nascent Polypeptide Chains* (2005) (32)
The Use of Phylogenetic Profiles for Gene Predictions (2002) (32)
Membrane protein assembly: rules of the game. (1995) (32)
Synergistic insertion of two hydrophobic regions drives Sec-independent membrane protein assembly. (1994) (31)
Cleavage of a tail‐anchored protein by signal peptidase (2002) (31)
Manipulating the genetic code for membrane protein production: what have we learnt so far? (2012) (31)
Alanine Insertion Scanning Mutagenesis of Lactose Permease Transmembrane Helices* (1997) (31)
The β structure: Inter-strand correlations (1977) (30)
Improved detection of homologous membrane proteins by inclusion of information from topology predictions (2002) (29)
A de novo designed signal peptide cleavage cassette functions in vivo. (1991) (29)
SecA-dependence of the translocation of a large periplasmic loop in the Escherichia coli MalF inner membrane protein is a function of sequence context. (1995) (29)
Do protein-lipid interactions determine the recognition of transmembrane helices at the ER translocon? (2005) (28)
Transmembrane but not soluble helices fold inside the ribosome tunnel (2018) (28)
Charge pair interactions in a model transmembrane helix in the ER membrane. (2000) (28)
Quantitative analysis of SecYEG-mediated insertion of transmembrane α-helices into the bacterial inner membrane. (2013) (28)
N-tail translocation in a eukaryotic polytopic membrane protein: synergy between neighboring transmembrane segments. (1999) (28)
Signals for protein targeting into and across membranes. (1994) (28)
Mutational analysis of protein folding inside the ribosome exit tunnel (2017) (27)
Translation and messenger RNA secondary structure. (1977) (27)
Formation of helical hairpins during membrane protein integration into the endoplasmic reticulum membrane. Role of the N and C-terminal flanking regions. (2001) (27)
SecA-independent Translocation of the Periplasmic N-terminal Tail of an Escherichia coli Inner Membrane Protein (1995) (27)
Cleavage-site motifs in protein targeting sequences. (1992) (26)
A Day in the Life of Dr K. or How I Learned to Stop Worrying and Love Lysozyme: a tragedy in six acts. (1999) (26)
Forces on nascent polypeptides during membrane insertion and translocation via the Sec translocon (2018) (26)
Membrane protein assembly: Rules of the game (1995) (26)
Models for mRNA translation: theory versus experiment. (1978) (25)
Energetics of side-chain snorkeling in transmembrane helices probed by nonproteinogenic amino acids (2016) (25)
Sec‐independent protein insertion into the inner E. coli membrane A phenomenon in search of an explanation (1994) (24)
Force-Profile Analysis of the Cotranslational Folding of HemK and Filamin Domains: Comparison of Biochemical and Biophysical Folding Assays. (2019) (24)
1 – Introduction/Overview (2002) (24)
Positively charged residues influence the degree of SecA dependence in protein translocation across the E. coli inner membrane (1994) (23)
In vitro membrane integration of leader peptidase depends on the Sec machinery and anionic phospholipids and can occur post‐translationally (1997) (23)
Weak pulling forces exerted on Nin‐orientated transmembrane segments during co‐translational insertion into the inner membrane of Escherichia coli (2014) (23)
Computer analysis of DNA and protein sequences (1991) (22)
Position-specific Asp-Lys pairing can affect signal sequence function and membrane protein topology. (1993) (22)
In vivo trp scanning of the small multidrug resistance protein EmrE confirms 3D structure models'. (2013) (22)
A quantitative assay to determine the amount of signal peptidase I in E. coli and the orientation of membrane vesicles. (1995) (21)
Residue-by-residue analysis of cotranslational membrane protein integration in vivo (2020) (21)
Getting greasy: how transmembrane polypeptide segments integrate into the lipid bilayer (1997) (21)
Formation of Transmembrane Helices In Vivo—Is Hydrophobicity All that Matters? (2007) (21)
Protein targeting, transport & translocation (2002) (21)
Membrane proteins: shaping up. (2002) (20)
The leader peptides from bacteriorhodopsin and halorhodopsin are potential membrane‐spanning amphipathic helices (1987) (20)
Getting greasy: how transmembrane polypeptide segments integrate into the lipid bilayer. (1997) (20)
Signal sequences are not uniformly hydrophobic (1982) (20)
Cleavage-site motifs in protein targeting sequences. (1992) (19)
Confronting fusion protein-based membrane protein topology mapping with reality: the Escherichia coli ClcA H+/Cl- exchange transporter. (2008) (19)
Competition between neighboring topogenic signals during membrane protein insertion into the ER (2004) (19)
Cotranslational folding cooperativity of contiguous domains of α-spectrin (2019) (19)
Stable membrane orientations of small dual-topology membrane proteins (2017) (19)
Sequence Analysis in Molecular Biology: Treasure Trove or Trivial Pursuit (2012) (18)
Flanking Residues Help Determine Whether a Hydrophobic Segment Adopts a Monotopic or Bitopic Topology in the Endoplasmic Reticulum Membrane* (2011) (18)
Gene Duplication Leads to Altered Membrane Topology of a Cytochrome P450 Enzyme in Seed Plants (2017) (18)
Theoretical modelling of protein synthesis. (1987) (18)
Effects of ‘hydrophobic mismatch’ on the location of transmembrane helices in the ER membrane (2001) (18)
The DsbA‐DsbB system affects the formation of disulfide bonds in periplasmic but not in intramembraneous protein domains (1993) (17)
A Day in the Life of Dr K. or How I Learned to Stop Worrying and Love Lysozyme: a tragedy in six acts. (1999) (17)
Membrane Topology of Kch, a Putative K+ Channel from Escherichia coli* (1996) (17)
The concentration dependence of the error frequencies and some related quantities in protein synthesis. (1979) (17)
Biological insertion of computationally designed short transmembrane segments (2016) (17)
Architecture of beta-barrel membrane proteins: analysis of trimeric porins. (1998) (17)
Formation of Transmembrane Helices In Vivo—Is Hydrophobicity All that Matters? (2007) (17)
SignalP 6.0 achieves signal peptide prediction across all types using protein language models (2021) (16)
The ribosome modulates folding inside the ribosomal exit tunnel (2020) (16)
Thermodynamics of Membrane Insertion and Refolding of the Diphtheria Toxin T-Domain (2015) (16)
Sec‐independent protein insertion into the inner E. coli membrane A phenomenon in search of an explanation (1994) (16)
Determinants of Topogenesis and Glycosylation of Type II Membrane Proteins (2000) (16)
Transmembrane helices containing a charged arginine are thermodynamically stable (2017) (16)
Stop‐transfer efficiency of marginally hydrophobic segments depends on the length of the carboxy‐terminal tail (2003) (16)
Cotranslational Folding of a Pentarepeat β-Helix Protein. (2018) (16)
Computer analysis of DNA and protein sequences. (1991) (16)
Membrane-protein engineering. (1997) (16)
Signal sequences are not uniformly hydrophobic. (1982) (15)
Glycosylatable GFP as a compartment-specific membrane topology reporter. (2012) (15)
Introduction to Theme “Membrane Protein Folding and Insertion” (2011) (15)
SIGPEP: a sequence database for secretory signal peptides. (1987) (15)
Some global β‐sheet characterstics (1978) (15)
A phenomenon in search of an explanation (1994) (14)
Application of split‐green fluorescent protein for topology mapping membrane proteins in Escherichia coli (2012) (14)
Detecting Novel Sequence Signals in Targeting Peptides Using Deep Learning (2019) (14)
Membrane protein assembly in vivo. (2003) (14)
Formation of cytoplasmic turns between two closely spaced transmembrane helices during membrane protein integration into the ER membrane. (2000) (14)
Helical sidedness and the distribution of polar residues in trans-membrane helices. (1983) (13)
Early evolution of cellular electron transport: Molecular models for the ferredoxin-rubredoxin-flavodoxin region (1978) (13)
Dislocation by the m-AAA Protease Increases the Threshold Hydrophobicity for Retention of Transmembrane Helices in the Inner Membrane of Yeast Mitochondria* (2013) (13)
Getting sense out of sequence data (1988) (12)
Dynamic membrane topology in an unassembled membrane protein (2019) (12)
Positional editing of transmembrane domains during ion channel assembly (2013) (12)
Forcing the Issue: Aromatic Tuning Facilitates Stimulus-Independent Modulation of a Two-Component Signaling Circuit (2014) (12)
Sequential Closure of the Cytoplasm and Then the Periplasm during Cell Division in Escherichia coli (2011) (11)
Calnexin can interact with N‐linked glycans located close to the endoplasmic reticulum membrane (1996) (11)
Membranes: reading between the lines. (2008) (11)
Why have small multidrug resistance proteins not evolved into fused, internally duplicated structures? (2014) (11)
Fast Needleman-Wunsch scanning of sequence databanks on a massively parallel computer (1993) (11)
The tRNA cycle and its relation to the rate of protein synthesis (2004) (10)
Repositioning of Transmembrane α-Helices during Membrane Protein Folding (2010) (10)
Protein sorting signals: simple peptides with complex functions. (1995) (9)
Estimating Z-ring radius and contraction in dividing Escherichia coli (2010) (9)
Production of human tetraspanin proteins in Escherichia coli. (2012) (9)
The Shape of the Ribosome Exit Tunnel Affects Cotranslational Protein Folding (2018) (9)
consensus approach Prediction of partial membrane protein topologies using a data (2002) (9)
Differential repositioning of the second transmembrane helices from E. coli Tar and EnvZ upon moving the flanking aromatic residues. (2015) (9)
Ribosome - SRP - signal sequence interactions: The relay helix hypothesis (1985) (9)
Silencing of Aberrant Secretory Protein Expression by Disease-Associated Mutations. (2019) (9)
Large tilts in transmembrane helices can be induced during tertiary structure formation. (2014) (9)
Trans-membrane translocation of proteins. A detailed physico-chemical analysis. (1980) (9)
Membrane proteins: from bench to bits. (2011) (9)
Ribosome-SRP-signal sequence interactions. The relay helix hypothesis. (1985) (8)
Stable insertion of Alzheimer Aβ peptide into the ER membrane strongly correlates with its length (2007) (8)
Decoding the Signals of Membrane Protein Sequences (1994) (8)
Charged flanking residues control the efficiency of membrane insertion of the first transmembrane segment in yeast mitochondrial Mgm1p (2011) (8)
Targeting Signals for Protein Import into Mitochondria and Other Subcellular Organelles (1996) (7)
Introduction to theme "membrane protein folding and insertion". (2011) (7)
CHLPEP—A database of chloroplast transit peptides (1991) (7)
Translocation of Anthrax Toxin: Lord of the Rings (2005) (7)
Converting a marginally hydrophobic soluble protein into a membrane protein. (2011) (7)
Protein sorting signals: simple peptides with complex functions (1995) (7)
Homology to region X from staphylococcal protein A is not unique to cell surface proteins. (1987) (7)
Competition between neighboring topogenic signals during membrane protein insertion into the ER. (2005) (7)
Signals for Protein Import into Organelles (1991) (6)
A theoretical study of the attenuation control mechanism. (1982) (6)
A sequence correlation between oppositely charged residues in secreted proteins. (1980) (6)
Kinetics of the decomposition of aqueous chlorine dioxide solutions. (1973) (6)
Computer-Assisted Identification of Protein Sorting Signals and Prediction of Membrane Protein Topology and Structure (1996) (6)
Different sec‐requirements for signal peptide cleavage and protein translocation in a model E. coli protein (1993) (6)
Today's data (1989) (6)
Mutational analysis of the human Xbp1 translational arrest peptide and construction of arrest-enhanced variants (2017) (5)
Cotranslational folding of alkaline phosphatase in the periplasm of Escherichia coli (2020) (5)
The Folding Pathway of an Ig Domain is Conserved On and Off the Ribosome (2018) (5)
Direct Detection of Membrane-Inserting Fragments Defines the Translocation Pores of a Family of Pathogenic Toxins. (2018) (5)
Protein Evolution and Design. (2018) (5)
Hydrophobic Blocks Facilitate Lipid Compatibility and Translocon Recognition of Transmembrane Protein Sequences (2015) (5)
Force-profile analysis of the cotranslational folding of HemK and filamin domains: Comparison of biochemical and biophysical folding assays (2018) (5)
Kinetic aspects of the DNA helix - cruciform transition. (1976) (5)
The Use of Phylogenetic Profiles for Gene Predictions Revisited (2006) (5)
Murine astrotactins 1 and 2 have a similar membrane topology and mature via endoproteolytic cleavage catalyzed by a signal peptidase (2019) (5)
A short C‐terminal tail prevents mis‐targeting of hydrophobic mitochondrial membrane proteins to the ER (2013) (5)
The Mgr2 subunit of the TIM23 complex regulates membrane insertion of marginal stop‐transfer signals in the mitochondrial inner membrane (2019) (5)
SIGPEP: a sequence database for secretory signal peptides. (1987) (5)
Cotranslational translocation and folding of a periplasmic protein domain in Escherichia coli. (2021) (5)
The topogenic function of S4 promotes membrane insertion of the voltage-sensor domain in the KvAP channel. (2016) (5)
Membrane proteins: from bench to bits (2011) (5)
Probing Interplays between Human XBP1u Translational Arrest Peptide and 80S Ribosome (2021) (4)
Membrane protein anchors and polytopic determinants. (1995) (4)
Translocation of Anthrax Toxin: Lord of the Rings (2005) (4)
Membrane protein assembly in vivo. (2003) (4)
A sequence correlation between oppositely charged residues in secreted proteins. (1980) (4)
Membrane integration and topology of RIFIN and STEVOR proteins of the Plasmodium falciparum parasite (2019) (4)
Models for transmembrane translocation of proteins. (1981) (4)
Lipid Bilayers, Translocons and the Shaping of Polypeptide Structure (2008) (4)
Cotranslational folding of a pentarepeat β-helix protein (2018) (3)
TIM23mediated insertion of transmembrane helices into the mitochondrial inner membrane (2011) (3)
The beta structure: inter-strand correlations. (1977) (3)
Chapter 4 – Nucleotide Sequences: What You Can Do With Your Sequence Once You Have It (1987) (3)
Structural basis of l-tryptophan-dependent inhibition of release factor 2 by the TnaC arrest peptide (2021) (3)
Membrane integration and topology of RIFIN and STEVOR proteins of the Plasmodium falciparum parasite (2019) (3)
On the emergence of new function in primitive proteins. (1978) (3)
Hydrophobic Clusters Raise the Threshold Hydrophilicity for Insertion of Transmembrane Sequences in Vivo. (2016) (3)
Turning yeast sequence into protein function (1996) (3)
RNA splicing: advantages of parallel processing. (1982) (3)
Stable membrane topologies of small dual-topology membrane proteins (2017) (2)
Sequence Determinants of Protein Sorting Into and Across Membranes (1988) (2)
"Theoretical experiments" on amino acid and nucleotide sequences: three case-studies. (1985) (2)
Membrane proteins up for grabs (2007) (2)
Chapter 8 – Sequences: Where Theoretical and Experimental Molecular Biology Meet (1987) (2)
Nobel Committee responds to criticism (2019) (2)
The state of the art of membrane protein structure prediction: from sequence to 3D structure (2008) (2)
3 – Targeting Sequences (2002) (2)
Models for transmembrane translocation of proteins. (1981) (2)
Cotranslational folding and assembly of the dimeric E. coli inner membrane protein EmrE (2022) (2)
Helices on the move. (2005) (2)
Competition, Coexistence and Irreversibility in Models of Early Molecular Evolution (1981) (2)
Upstream charged and hydrophobic residues impact the timing of membrane insertion of transmembrane helices (2021) (2)
Helices on the move (2005) (2)
Author response: Structure and topology around the cleavage site regulate post-translational cleavage of the HIV-1 gp160 signal peptide (2017) (2)
Chapter 7 Sequence determinants of membrane protein topology (1992) (2)
Cotranslational folding of a periplasmic protein domain in Escherichia coli (2021) (1)
Chapter 2 – The Collector's Dream: From Dayhoff to Data Banks (1987) (1)
Introduction to the Theme on Membrane Channels. (2021) (1)
Molecular Mechanisms in Biological Processes (2005) (1)
Membrane proteins up for grabs. (2007) (1)
Bioinformatics of membrane proteins. (2002) (1)
Secondary Transport (2021) (1)
Synergy between neighboring transmembrane segments (1999) (1)
Evolution of Protein Sorting Signals (1997) (1)
SignalP 5.0 improves signal peptide predictions using deep neural networks (2019) (1)
Protein Evolution and Design. (2018) (1)
Membrane permeability: Transport of peptides and proteins through membranes (2000) (1)
Bioinformatics of Myelin Membrane Proteins (2009) (1)
Confronting fusion protein-based membrane protein topology mapping with reality: the Escherichia coli ClC chloride channel (2005) (1)
Membrane Proteins in Vivo and in Silico: Getting the Best of Two Worlds (2005) (1)
Murine astrotactins 1 and 2 have similar membrane topology and mature via endoproteolytic cleavage catalyzed by signal peptidase (2018) (1)
Cleavage-Sites in Protein Targeting Signals (1991) (1)
KINETICS OF THE DECOMPOSITION OF AQUEOUS CHLORINE DIOXIDE SOLUTIONS (1974) (1)
Isolation of ribosome-associated nascent chains of soluble proteins produced in Escherichia coli v1 (2019) (1)
Cotranslational folding and assembly of the dimeric Escherichia coli inner membrane protein EmrE (2022) (1)
Molten globules lure transmembrane helices away from the membrane (2021) (1)
Membrane protein serendipity. (2018) (1)
Imports, exports, and quality control. Intracellular Routing of Protein Molecules, sponsored by the Karolinska Institute, Center for Biotechnology, Huddinge, Sweden, May 18-19, 1990. (1990) (1)
Getting sense out of sequence data (1988) (0)
Comparison of Direct and Translocon Mediated Insertion of Charge-Bearing Transmembrane Segments (2013) (0)
Author response: The force-sensing peptide VemP employs extreme compaction and secondary structure formation to induce ribosomal stalling (2017) (0)
Transmembrane but not soluble helices fold inside the ribosome tunnel (2018) (0)
The effect of lysines in transmembrane helices on conformation and position (2000) (0)
2.9 A cryo-EM structure of VemP-stalled ribosome-nascent chain complex (2017) (0)
Nucleic Acids Research (0)
Membrane Topology of S4 of the Mouse Voltage-Gated Proton Channel (2010) (0)
[Intracellular protein transport--the cell as a mail carrier]. (1990) (0)
GPCRs AND TRANSPORTERS: LIGANDS, COFACTORS, DRUG DEVELOPMENT (2014) (0)
Assembly of Integral Membrane Proteins (1994) (0)
Membrane Protein Bioinformatics (2021) (0)
Firearm Violence Exposure and Serious Violent Behavior (2005) (0)
A rotational model for EnvZ signal transduction (2009) (0)
Small-Molecule Channels (2021) (0)
Science 2015 Uhlen (2015) (0)
Chapter 1 – Introduction: The Abnormalin Story (1987) (0)
[Invited Lecture] Picking out membrane proteins (1998) (0)
The stateof the art ofmembraneprotein structure prediction : from sequence to 3 D structure (2009) (0)
Bioinformatics of membrane proteins. (2002) (0)
Toward rational engineering of two-component signal output (2010) (0)
Cell Boundaries (2021) (0)
Sequence Determinants for Protein Import into Chloroplasts and Thylakoid Membrane Protein Assembly (1992) (0)
17 – Conclusion/Perspective (2002) (0)
Intracellular Sorting of Proteins (2009) (0)
Insertion of model helices into the mitochondrial inner membrane: the rules of the game (2010) (0)
Do Acidic Residues in TH8-TH9 Play a Role in Transmembrane Insertion of the Diphtheria Toxin T-Domain? (2014) (0)
The ribosome modulates folding inside the ribosomal exit tunnel (2021) (0)
[Intracellular protein transport--the cell as a mail carrier]. (1990) (0)
"Theoretical experiments" on amino acid and nucleotide sequences: three case-studies. (1985) (0)
Cotranslational folding studies of spectrin and Ig-like domains show folding occurs close to the ribosome (2016) (0)
Electrostatics Appendix (2021) (0)
Transmembrane helices containing a charged arginine are thermodynamically stable (2017) (0)
The Efficiency of the Uncleaved Secretion Signal in the Plasminogen Activator Inhibitor Type 2 Protein Can Be Enhanced by Point Mutations That Increase Its Hydrophobicity * (2001) (0)
Single-Molecule Dynamics of a Trimeric Aspartate Transporter (2013) (0)
Thermodynamics of Membrane Insertion and Refolding of the Diphtheria Toxin T-Domain (2014) (0)
Arrest Peptides as Force Sensors to Study Co-translational Membrane Protein Biogenesis (2014) (0)
Table of Contents (1994) (0)
Cotranslational Protein Fo lding inside the Ribosome (2015) (0)
Interactions of Peptides with Lipid Bilayers (2021) (0)
Differential repositioning of the second transmembrane helices from E . coli Tar and EnvZ 10 upon moving the flanking aromatic residues 11 12 (2015) (0)
Membrane protein topogenesis in Escherichia coli (1995) (0)
How Proteins Shape Membranes (2021) (0)
Chapter 6 – Sequence Similarities, Homologies, and Alignments (1987) (0)
Targeting Signals and Mechanisms of Protein Insertion into Membranes (1993) (0)
In sequence (1989) (0)
Cryo-EM structure of 70S ribosome stalled with TnaC peptide and RF2 (2021) (0)
Membrane Protein Folding and Stability (2021) (0)
Assembly of Escherichia Coli Inner Membrane Proteins: Sec-Dependent and Sec-Independent Membrane Insertion (1992) (0)
Restriction in the outer membrane diffusion over the dividing septum of Escherichia coli cells measured by dual-color FRAP (2011) (0)
Solution structure of AS1p-Tar in 10% negatively charged bicelles (2011) (0)
Lipid Bilayers (2021) (0)
Transmembrane helices can shift to new position during folding (2011) (0)
Glycosylation Mapping Of The Interaction Between Topogenic Sequences And The Er Translocase (1996) (0)
Information Transfer: (2021) (0)
Ion Channels (2004) (0)
Chapter 3 – Sequencing on the Computer: Programs That Make Lab Work Easier, Faster, and More Fun (?) (1987) (0)
Structure of Targeting Peptides for Organellar Protein Import (1990) (0)
When is membrane protein topology determined? (2011) (0)
Heijne transit peptides and their cleavage sites ChloroP , a neural network-based method for predicting chloroplast (1999) (0)
Membrane proteins: from sequence to structure. (1994) (0)
Today's data (1989) (0)
Pre-Insertion Topology of Transmembrane Proteins is Highly Plastic and Can Be Controlled by a Single C-Terminal Residue (2011) (0)
How proteins insert into the ER membrane (2007) (0)
Introduction to the Theme on Membrane Channels (2021) (0)
Insertion of transmembrane helices into the ER membrane (2000) (0)
Imports, exports, and quality control. Intracellular Routing of Protein Molecules, sponsored by the Karolinska Institute, Center for Biotechnology, Huddinge, Sweden, May 18-19, 1990. (1990) (0)
A quantitative analysis of translocon-mediated insertion of transmembrane alpha-helices (2006) (0)
Cotranslational Protein Folding (2016) (0)
SignalP 6.0 predicts all five types of signal peptides using protein language models (2022) (0)
Cotranslational folding of human growth hormone in vitro and in Escherichia coli (2022) (0)
Biosynthesis and Assembly of Membrane Proteins (2021) (0)
Discussions of Session 4 (2014) (0)
Primary Transporters (2021) (0)
Single-particle cryo-EM of co-translational folded adr1 domain inside the E. coli ribosome exit tunnel. (2015) (0)
Primer on Biomolecular Structure Determination (2021) (0)
University of Groningen Insertion of a bacterial secondary transport protein in the endoplasmic reticulum membrane (2017) (0)
Structural and mutational analysis of the ribosome-1 arresting human XBP 1 u 2 (0)
Foundations of Membrane Structure (2021) (0)
Folding of a elix Protein (2018) (0)
The “E” Words (2021) (0)
Protein folding inside the ribosomal tunnel (2019) (0)
Membrane protein serendipity (2018) (0)
Cryo-EM structure of 70S ribosome stalled with TnaC peptide (2021) (0)
Partitioning Charged Side Chains into Lipid Bilayer Membranes (2014) (0)
Chapter 5 – Protein Sequences: What You Can Do With Your Sequence Once You Have It (1987) (0)
Mapping out forces that act on transmembrane helices during membrane insertion (2012) (0)
STRUCTURAL ASPECTS OF TRANSMEMBRANE ALPHA -HELICES (1998) (0)
Structural aspects of transmembrane alpha-helices. (1998) (0)
Protein Trafficking in Cells (2021) (0)
Chapter 7 – Machine Molecular Biology: Running Experiments on the Computer (1987) (0)
The Direct Transfer Model (1979) (0)

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