Your search keyword '"polyalanine"' showing total 288 results

1. Predicting the involvement of polyQ- and polyA in protein-protein interactions by their amino acid context

Author

Mier, Pablo and Andrade-Navarro, Miguel A.

Published

2024

2. Reassessing the association: Evaluation of a polyalanine deletion variant of RUNX2 in non‐syndromic sagittal and metopic craniosynostosis.

Author

Walton, Isaac S., McCann, Emma, Weber, Astrid, Morton, Jenny E. V., Noons, Peter, Wilson, Louise C., Ching, Rosanna C., Cilliers, Deirdre, Johnson, David, Phipps, Julie M., Shears, Deborah J., Thomas, Gregory P. L., Wall, Steven A., Twigg, Stephen R. F., and Wilkie, Andrew O. M.

Subjects

*TRANSCRIPTION factors, *HOMINIDS, *GENE frequency, *GENETIC polymorphisms, *NUCLEOTIDE sequencing

Abstract

The RUNT‐related transcription factor RUNX2 plays a critical role in osteoblast differentiation, and alterations to gene dosage cause distinct craniofacial anomalies. Uniquely amongst the RUNT‐related family, vertebrate RUNX2 encodes a polyglutamine/polyalanine repeat (Gln23‐Glu‐Ala17 in humans), with the length of the polyalanine component completely conserved in great apes. Surprisingly, a frequent 6‐amino acid deletion polymorphism, p.(Ala84_Ala89)del, occurs in humans (termed 11A allele), and a previous association study (Cuellar et al. Bone137:115395;2020) reported that the 11A variant was significantly more frequent in non‐syndromic sagittal craniosynostosis (nsSag; allele frequency [AF] = 0.156; 95% confidence interval [CI] 0.126–0.189) compared to non‐syndromic metopic craniosynostosis (nsMet; AF = 0.068; 95% CI 0.045–0.098). However, the gnomAD v.2.1.1 control population used by Cuellar et al. did not display Hardy–Weinberg equilibrium, hampering interpretation. To re‐examine this association, we genotyped the RUNX2 11A polymorphism in 225 individuals with sporadic nsSag as parent–child trios and 164 singletons with sporadic nsMet, restricting our analysis to individuals of European ancestry. We compared observed allele frequencies to the non‐transmitted alleles in the parent–child trios, and to the genome sequencing data from gnomAD v.4, which display Hardy–Weinberg equilibrium. Observed AFs (and 95% CI) were 0.076 (0.053–0.104) in nsSag and 0.082 (0.055–0.118) in nsMet, compared with 0.062 (0.042–0.089) in non‐transmitted parental alleles and 0.065 (0.063–0.067) in gnomAD v.4.0.0 non‐Finnish European control genomes. In summary, we observed a non‐significant excess, compared to gnomAD data, of 11A alleles in both nsSag (relative risk 1.18, 95% CI 0.83–1.67) and nsMet (relative risk 1.29, 95% CI 0.87–1.92), but we did not replicate the much higher excess of RUNX2 11A alleles in nsSag previously reported (p = 0.0001). [ABSTRACT FROM AUTHOR]

Published

2024

3. A new nonsense pathogenic variant in exon 1 of PHOX2B leads to the diagnosis of congenital central hypoventilation syndrome with intra-familial variability.

Author

Pelleter, Morgane, Desaintjean, Charlène, Gyapay, Romane, Massenavette, Bruno, Baudin, Florent, Couque, Nathalie, Tamisier, Renaud, Dudoignon, Benjamin, Franco, Patricia, Mougenel-Chantereau, Antoine, and Coutier, Laurianne

Subjects

*EXONS (Genetics), *HYPOVENTILATION, *NONSENSE mutation, *PHENOTYPES, *POLYALANINE

Abstract

Congenital central hypoventilation syndrome (CCHS) is a rare genetic disorder of the autonomic nervous system resulting in decreased brain sensitivity to hypercapnia and hypoxia characterized by a genetic abnormality in the pair-like homeobox 2B (PHOX2B) gene. Most patients have a heterozygous expansion of the polyalanine repeat in exon 3 (PARM), while 10 % of patients have non-PARM (NPARM) mutations that can span the entire gene. The majority of pathogenic variants are de novo, but variants with incomplete penetrance can be identified in the heterozygous state. In the present report, CCHS was diagnosed in a symptomatic 3-month-old infant with neonatal respiratory distress. Genetic analysis revealed a new mutation in exon 1 of the PHOX2B gene – p.Ser28* (c.83C>G) – which was further identified in two family members, one minimally symptomatic and one asymptomatic. The identification of this new mutation supports the importance of sequencing the entire gene even when the classic PARM mutation is not found and highlights the phenotypic variability of CCHS. [ABSTRACT FROM AUTHOR]

Published

2024

4. Predicting the involvement of polyQ- and polyA in protein-protein interactions by their amino acid context

Author

Pablo Mier and Miguel A. Andrade-Navarro

Subjects

Homorepeat, Polyglutamine, Polyalanine, Protein-protein interaction, Machine learning, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Homorepeats, specifically polyglutamine (polyQ) and polyalanine (polyA), are often implicated in protein-protein interactions (PPIs). So far, a method to predict the participation of homorepeats in protein interactions is lacking. We propose a machine learning approach to identify PPI-involved polyQ and polyA regions within the human proteome based on known interacting regions. Using the dataset of human homorepeats, we identified 157 polyQ and 745 polyA regions potentially involved in PPIs. Machine learning models, trained on amino acid context and homorepeat length, demonstrated high precision (0.90–0.98) but variable recall (0.42–0.85). Random forest outperformed other models (AUC polyQ = 0.686, AUC polyA = 0.732) using the positions surrounding the homorepeat −10 to +10. Integrating paralog information marginally improved predictions but was excluded for model simplicity. Further optimization revealed that for polyQ, using amino acid surrounding positions from −6 to +6 increased AUC to 0.715. For polyA, no improvement was found. Incorporating coiled coil overlap information enhanced polyA predictions (AUC = 0.745) but not polyQ. Finally, we applied these models to predict PPI involvement across all polyQ and polyA regions, identifying potential interactions. Case studies illustrated the method's predictive capacity, highlighting known interacting regions with high scores and elucidating potential false negatives.

Published

2024

5. Oculopharyngeal Muscular Dystrophy

Author

Brais, Bernard, Tarsy, Daniel, Series Editor, Narayanaswami, Pushpa, editor, and Liewluck, Teerin, editor

Published

2023

6. Exploring pain neurobiology : molecular investigation of genetic sensory disorders

Author

Sarveswaran, Nivedita, Woods, Ghristopher Geoffrey, and Linley, John

Subjects

612.8, Pain, Nociception, Ion channel, Transcription factor, Polyalanine, Neurodevelopment

Published

2021

7. Anti-Protozoan Activities of Polar Fish-Derived Polyalanine Synthetic Peptides.

Author

Nunes, Ellynes Amancio Correia, da Silva, Maria Cláudia, Cardoso, Marlon Henrique, Preza, Sergio Leandro Espíndola, de Oliveira, Lucas Silva, Frihling, Breno Emanuel Farias, Charneau, Sébastien Olivier, Grellier, Philippe, Franco, Octávio Luiz, and Migliolo, Ludovico

Abstract

Chagas disease, sleeping sickness and malaria are infectious diseases caused by protozoan parasites that kill millions of people worldwide. Here, we performed in vitro assays of Pa-MAP, Pa-MAP1.9, and Pa-MAP2 synthetic polyalanine peptides derived from the polar fish Pleuronectes americanus toward Trypanosoma cruzi, T. brucei gambiense and Plasmodium falciparum activities. We demonstrated that the peptides Pa-MAP1.9 and Pa-MAP2 were effective to inhibit T. brucei growth. In addition, structural analyses using molecular dynamics (MD) studies showed that Pa-MAP2 penetrates deeper into the membrane and interacts more with phospholipids than Pa-MAP1.9, corroborating the previous in vitro results showing that Pa-MAP1.9 acts within the cell, while Pa-MAP2 acts via membrane lysis. In conclusion, polyalanine Pa-MAP1.9 and Pa-MAP2 presented activity against bloodstream forms of T. b. gambiense, thus encouraging further studies on the application of these peptides as a treatment for sleeping sickness. [ABSTRACT FROM AUTHOR]

Published

2023

8. Advances in Nucleotide Repeat Expansion Diseases: Transcription Gets in Phase.

Author

Figueiredo, Ana S., Loureiro, Joana R., Macedo-Ribeiro, Sandra, and Silveira, Isabel

Subjects

*HUNTINGTIN protein, *NEUROMUSCULAR diseases, *PHASE separation, *AMYOTROPHIC lateral sclerosis, *GENE expression, *MACROMOLECULES

Abstract

Unstable DNA repeat expansions and insertions have been found to cause more than 50 neurodevelopmental, neurodegenerative, and neuromuscular disorders. One of the main hallmarks of repeat expansion diseases is the formation of abnormal RNA or protein aggregates in the neuronal cells of affected individuals. Recent evidence indicates that alterations of the dynamic or material properties of biomolecular condensates assembled by liquid/liquid phase separation are critical for the formation of these aggregates. This is a thermodynamically-driven and reversible local phenomenon that condenses macromolecules into liquid-like compartments responsible for compartmentalizing molecules required for vital cellular processes. Disease-associated repeat expansions modulate the phase separation properties of RNAs and proteins, interfering with the composition and/or the material properties of biomolecular condensates and resulting in the formation of abnormal aggregates. Since several repeat expansions have arisen in genes encoding crucial players in transcription, this raises the hypothesis that wide gene expression dysregulation is common to multiple repeat expansion diseases. This review will cover the impact of these mutations in the formation of aberrant aggregates and how they modify gene transcription. [ABSTRACT FROM AUTHOR]

Published

2023

9. Anti-Protozoan Activities of Polar Fish-Derived Polyalanine Synthetic Peptides

Author

Ellynes Amancio Correia Nunes, Maria Cláudia da Silva, Marlon Henrique Cardoso, Sergio Leandro Espíndola Preza, Lucas Silva de Oliveira, Breno Emanuel Farias Frihling, Sébastien Olivier Charneau, Philippe Grellier, Octávio Luiz Franco, and Ludovico Migliolo

Subjects

antimicrobial peptide, polyalanine, molecular dynamics, trypanocidal peptide, antiplasmodial peptide, Biology (General), QH301-705.5

Abstract

Chagas disease, sleeping sickness and malaria are infectious diseases caused by protozoan parasites that kill millions of people worldwide. Here, we performed in vitro assays of Pa-MAP, Pa-MAP1.9, and Pa-MAP2 synthetic polyalanine peptides derived from the polar fish Pleuronectes americanus toward Trypanosoma cruzi, T. brucei gambiense and Plasmodium falciparum activities. We demonstrated that the peptides Pa-MAP1.9 and Pa-MAP2 were effective to inhibit T. brucei growth. In addition, structural analyses using molecular dynamics (MD) studies showed that Pa-MAP2 penetrates deeper into the membrane and interacts more with phospholipids than Pa-MAP1.9, corroborating the previous in vitro results showing that Pa-MAP1.9 acts within the cell, while Pa-MAP2 acts via membrane lysis. In conclusion, polyalanine Pa-MAP1.9 and Pa-MAP2 presented activity against bloodstream forms of T. b. gambiense, thus encouraging further studies on the application of these peptides as a treatment for sleeping sickness.

Published

2023

10. Advances in Nucleotide Repeat Expansion Diseases: Transcription Gets in Phase

Author

Ana S. Figueiredo, Joana R. Loureiro, Sandra Macedo-Ribeiro, and Isabel Silveira

Subjects

liquid/liquid phase separation, RNA-binding protein, RNA/protein aggregates, polyalanine, polyglutamine, NIID, Cytology, QH573-671

Abstract

Unstable DNA repeat expansions and insertions have been found to cause more than 50 neurodevelopmental, neurodegenerative, and neuromuscular disorders. One of the main hallmarks of repeat expansion diseases is the formation of abnormal RNA or protein aggregates in the neuronal cells of affected individuals. Recent evidence indicates that alterations of the dynamic or material properties of biomolecular condensates assembled by liquid/liquid phase separation are critical for the formation of these aggregates. This is a thermodynamically-driven and reversible local phenomenon that condenses macromolecules into liquid-like compartments responsible for compartmentalizing molecules required for vital cellular processes. Disease-associated repeat expansions modulate the phase separation properties of RNAs and proteins, interfering with the composition and/or the material properties of biomolecular condensates and resulting in the formation of abnormal aggregates. Since several repeat expansions have arisen in genes encoding crucial players in transcription, this raises the hypothesis that wide gene expression dysregulation is common to multiple repeat expansion diseases. This review will cover the impact of these mutations in the formation of aberrant aggregates and how they modify gene transcription.

Published

2023

11. Impact of secondary structure and hydration water on the dielectric spectrum of poly-alanine and possible relation to the debate on slaved versus slaving water.

Author

Rinne, Klaus F., Schulz, Julius C. F., and Netz, Roland R.

Subjects

*MOLECULAR structure, *HYDRATION, *DIELECTRIC properties of water, *POLYALANINE, *MOLECULAR dynamics

Abstract

Using extensive molecular dynamics simulations of a single eight-residue alanine polypeptide in explicit water, we investigate the influence of a-helix formation on the dielectric spectrum. For this, we project long equilibrium trajectories into folded and unfolded states and thereby obtain dielectric spectra representative for disordered as well a-helical conformations without the need to change any other system parameter such as pH or temperature. The absorption spectrum in the a-helical state exhibits a feature in the sub-GHz range that is significantly stronger than in the unfolded state. As we show by an additional decomposition into peptide and water contributions, this slow dielectric mode, the relaxation time of which matches the independently determined peptide rotational relaxation time, is mostly caused by peptide polarization correlations, but also contains considerable contributions from peptide-water correlations. In contrast, the peptide spectral contribution shows no features in the GHz range where bulk water absorbs, not even in the peptide-water correlation part, we conclude that hydration water around Ala8 is more influenced by peptide polarization relaxation effects than the other way around. A further decomposition into water-self and water-collective polarization correlations shows that the dielectric response of hydration water is, in contrast to electrolyte solutions, retarded and that this retardation is mostly due to collective effects, the self relaxation of hydration water molecules is only slightly slowed down compared to bulk water. We find the dynamic peptide-water polarization cross correlations to be rather long-ranged and to extend more than one nanometer away from the peptide-water interface into the water hydration shell, in qualitative agreement with previous simulation studies and recent THz absorption experiments. [ABSTRACT FROM AUTHOR]

Published

2015

12. Evolution and expansion of the RUNX2 QA repeat corresponds with the emergence of vertebrate complexity.

Author

Newton, Axel H. and Pask, Andrew J.

Subjects

*TRANSCRIPTION factors, *VERTEBRATES, *GLUTAMINE, *ALANINE, *POLYALANINE

Abstract

Runt-related transcription factor 2 (RUNX2) is critical for the development of the vertebrate bony skeleton. Unlike other RUNX family members, RUNX2 possesses a variable poly-glutamine, poly-alanine (QA) repeat domain. Natural variation within this repeat is able to alter the transactivation potential of RUNX2, acting as an evolutionary 'tuning knob' suggested to influence mammalian skull shape. However, the broader role of the RUNX2 QA repeat throughout vertebrate evolution is unknown. In this perspective, we examine the role of the RUNX2 QA repeat during skeletal development and discuss how its emergence and expansion may have facilitated the evolution of morphological novelty in vertebrates. In this Perspective, Axel Newton and Andrew Pask examine the role of the Runt-related transcription factor 2 (RUNX2) QA repeat during skeletal development and discuss how its emergence and expansion may have facilitated the evolution of morphological novelty in vertebrates. [ABSTRACT FROM AUTHOR]

Published

2020

13. Stereocomplex crystallization, homocrystallization, and polymorphism of enantiomeric copolyesteramides poly(lactic acid‐co‐alanine)s from the melt.

Author

Tsuji, Hideto, Sato, Shotaro, Masaki, Noriaki, Arakawa, Yuki, Yoshizaki, Yuta, Kuzuya, Akinori, and Ohya, Yuichi

Abstract

Stereocomplex (SC) crystallization, homocrystallization, and polymorphism of poly(l‐lactic acid‐co‐l‐alanine) [P(LLA‐LAL)] and poly(d‐lactic acid‐co‐d‐alanine) [P(DLA‐DAL)] copolymers with wide alanine unit content ranges from 0 to 21 and 22 mol% are investigated for melt‐crystallization. P(LLA‐LAL)/P(DLA‐DAL) blends crystallize for wide alanine unit content ranges compared to unblended P(LLA‐LAL) and P(DLA‐DAL) samples, due to facile SC crystallization compared to homocrystallization. The phase diagrams of the unblended samples [α‐ and δ‐form homocrystallites] and the blend samples (SC and homocrystallites) are drawn. The transition crystallization temperature of unblended samples from α‐form to δ‐form decreases with an increase in alanine unit content. In the unblended and blend samples, alanine units are correspondingly incorporated in α‐form homocrystalline regions and excluded from SC crystalline regions. The maximum radial growth rate values of spherulites are higher for the blend samples than for the unblended samples. The experimental crystallization half time [tc(1/2)(exp)] values of the unblended samples increase with an increase in alanine unit content, whereas the tc(1/2)(exp) values of the blend samples with alanine unit contents of 3 and 4 mol% and 6 and 6 mol% and of 12 and 13 mol% are respectively higher than and similar to those of poly(l‐lactic acid)/poly(d‐lactic acid) blend. [ABSTRACT FROM AUTHOR]

Published

2020

14. Delineating elastic properties of kinesin linker and their sensitivity to point mutations.

Author

Świątek, Michał and Gudowska-Nowak, Ewa

Subjects

*ELASTICITY, *SINGLE molecules, *MOLECULAR dynamics, *POLYALANINE, *ASPARAGINE

Abstract

We analyze free energy estimators from simulation trials mimicking single-molecule pulling experiments on a neck linker of a kinesin motor. For that purpose, we have performed a version of steered molecular dynamics (SMD) calculations. The sample trajectories have been analyzed to derive distribution of work done on the system. In order to induce stretching of the linker, we have applied a constant pulling force to the molecule and allowed for a subsequent relaxation of its structure. The use of fluctuation relations (FR) relevant to non-equilibrium systems subject to thermal fluctuations allows us to assess the difference in free energy between stretched and relaxed conformations. To further understand effects of potential mutations on elastic properties of the linker, we have performed similar in silico studies on a structure formed of a polyalanine sequence (Ala-only) and on three other structures, created by substituting selected types of amino acid residues in the linker's sequence with alanine (Ala) ones. The results of SMD simulations indicate a crucial role played by the Asparagine (Asn) and Lysine (Lys) residues in controlling stretching and relaxation properties of the linker domain of the motor. [ABSTRACT FROM AUTHOR]

Published

2020

15. Augmenting Basin-Hopping With Techniques From Unsupervised Machine Learning: Applications in Spectroscopy and Ion Mobility

Author

Ce Zhou, Christian Ieritano, and William Scott Hopkins

Subjects

serine dimer, polyalanine, collision cross section, IRMPD, hierarchical clustering, potential energy surface, Chemistry, QD1-999

Abstract

Evolutionary algorithms such as the basin-hopping (BH) algorithm have proven to be useful for difficult non-linear optimization problems with multiple modalities and variables. Applications of these algorithms range from characterization of molecular states in statistical physics and molecular biology to geometric packing problems. A key feature of BH is the fact that one can generate a coarse-grained mapping of a potential energy surface (PES) in terms of local minima. These results can then be utilized to gain insights into molecular dynamics and thermodynamic properties. Here we describe how one can employ concepts from unsupervised machine learning to augment BH PES searches to more efficiently identify local minima and the transition states connecting them. Specifically, we introduce the concepts of similarity indices, hierarchical clustering, and multidimensional scaling to the BH methodology. These same machine learning techniques can be used as tools for interpreting and rationalizing experimental results from spectroscopic and ion mobility investigations (e.g., spectral assignment, dynamic collision cross sections). We exemplify this in two case studies: (1) assigning the infrared multiple photon dissociation spectrum of the protonated serine dimer and (2) determining the temperature-dependent collision cross-section of protonated alanine tripeptide.

Published

2019

16. Oculopharyngeal Muscular Dystrophy

Author

Brais, Bernard, Chrestian, Nicolas, Dupré, Nicolas, Bouchard, Jean-Pierre, Rouleau, Guy, Katirji, Bashar, editor, Kaminski, Henry J., editor, and Ruff, Robert L., editor

Published

2014

17. Compound Dynamics and Combinatorial Patterns of Amino Acid Repeats Encode a System of Evolutionary and Developmental Markers.

Author

Pelassa, Ilaria, Cibelli, Marica, Villeri, Veronica, Lilliu, Elena, Vaglietti, Serena, Olocco, Federica, Ghirardi, Mirella, Montarolo, Pier Giorgio, Corà, Davide, and Fiumara, Ferdinando

Subjects

*COMBINATORIAL dynamics, *AMINO acids, *MORPHOGENESIS, *EMBRYOLOGY, *HOMEOBOX genes, *BIOLOGICAL divergence

Abstract

Homopolymeric amino acid repeats (AARs) like polyalanine (polyA) and polyglutamine (polyQ) in some developmental proteins (DPs) regulate certain aspects of organismal morphology and behavior, suggesting an evolutionary role for AARs as developmental "tuning knobs." It is still unclear, however, whether these are occasional protein-specific phenomena or hints at the existence of a whole AAR-based regulatory system in DPs. Using novel approaches to trace their functional and evolutionary history, we find quantitative evidence supporting a generalized, combinatorial role of AARs in developmental processes with evolutionary implications. We observe nonrandom AAR distributions and combinations in HOX and other DPs, as well as in their interactomes, defining elements of a proteome-wide combinatorial functional code whereby different AARs and their combinations appear preferentially in proteins involved in the development of specific organs/systems. Such functional associations can be either static or display detectable evolutionary dynamics. These findings suggest that progressive changes in AAR occurrence/combination, by altering embryonic development, may have contributed to taxonomic divergence, leaving detectable traces in the evolutionary history of proteomes. Consistent with this hypothesis, we find that the evolutionary trajectories of the 20 AARs in eukaryotic proteomes are highly interrelated and their individual or compound dynamics can sharply mark taxonomic boundaries, or display clock-like trends, carrying overall a strong phylogenetic signal. These findings provide quantitative evidence and an interpretive framework outlining a combinatorial system of AARs whose compound dynamics mark at the same time DP functions and evolutionary transitions. [ABSTRACT FROM AUTHOR]

Published

2019

18. Interaction of peptide backbones and transition metal ions: 1. an IM-MS and DFT study of the binding pattern, structure and fragmentation of Pd(II)/Ni(II)-Polyalanine complexes.

Author

Liu, Ziye, Chen, Siyun, Qiao, Fangfang, and Zhang, Xinhao

Subjects

*METAL ions, *TRANSITION metals, *DENSITY functional theory, *MASS spectrometry, *POLYALANINE

Abstract

Graphical abstract Highlights • The interaction of Pd(II)/Ni(II) with polyalanine and the effects on fragmentation. • A globular conformation of the Pd(II)/Ni(II)-polyalanine complexes. • A characteristic fragmentation pattern for Pd(II)/Ni(II)-polyalanine complexes. • Pd(II) and Ni(II) preferred to coordinating to the N atoms of the four residues at the N-terminus. Abstract The interaction between metal ions and peptides have attracted interests because of the important roles of metal ions in many biological processes and the potential application in different fields. The binding patterns of Pd(II)/Ni(II) with polyalanine and the consequent conformational changes as well as the effects on fragmentation have been studied by electrospray ionization ion mobility mass spectrometry (ESI-IM-MS) experiments and density functional theory (DFT). The collision cross section (CCS) values that were measured showed that such complexes tend to adopt compact globular conformations in the case of polyalanines with more than 6 residues, while conformational change was detected in shorter polyalanines with 4 or 5 residues. Collision induced dissociation (CID) experiments revealed a characteristic fragmentation pattern for Pd(II)/Ni(II)-polyalanine complexes of length n in which neutral part Ala 4 –H 2 O + M–2H (M = Pd or Ni) and fragment ions [b 4 +M–2 H]+, [a 4 +M–2 H]+ were formed in much higher abundance than any other product ions. Density functional theory (DFT) calculations indicated that Pd(II) and Ni(II) preferred to coordinating to the N atoms of the four residues at the N-terminus. Such a binding pattern accelerates fragmentation involving a structure moiety containing four residues and a metal. This analysis suggested a strong structural correlation between Pd(II) and Ni(II) and the four residues located at the N-terminus of polyalanines. [ABSTRACT FROM AUTHOR]

Published

2019

19. Computational conformational analysis of α-thrombin inhibitors possessing distinct scaffolds in aqueous solution and on Ala-sheet.

Author

Gohda, Keigo

Subjects

*ANTITHROMBINS, *LIGAND binding (Biochemistry), *PROTEIN binding, *SCAFFOLD proteins, *POLYALANINE, *HYDROPHOBIC compounds, *MOLECULAR dynamics, *CONFORMATIONAL analysis

Abstract

Abstract Recent computational simulations on protein-ligand binding/unbinding have precisely been uncovering the ligand-binding process at the atomic level. In the process, the non-specific binding of ligands to the target site is suggested to occur before binding to the target. We in this study analyzed the conformations of ligands under the non-specific binding on a protein surface to figure out the differences in the conformational characteristics in aqueous solution using the 55-ns molecular dynamic simulation. As for the protein surface, we constructed an artificial β-sheet, composed of poly-alanine residues (Ala-sheet). For the ligands, the four α-thrombin inhibitors possessing two scaffolds with distinct hydrophobicity profiles were used. During the simulation, all the inhibitors kept interaction with Ala-sheet and had the limited conformational fluctuations compared with in aqueous solution. The representative conformations obtained from the cluster analysis showed that two of hydrophobic inhibitors adopted the extended conformations in aqueous solution and also on Ala-sheet. For the other two hydrophilic inhibitors, the conformations in aqueous solution adopted the bent conformation with two terminal hydrophobic rings closely packed. On Ala-sheet, contrarily, the two hydrophobic rings were open and took the extended conformations, which were placed on the sheet as a foothold. The charged moieties in the hydrophilic inhibitors were protruded into aqueous environment with the extended conformation. The conformational characteristics of the inhibitors in aqueous solution and Ala-sheet varied likely by chemical features or structures of the inhibitors, but each was considered to be physicochemically reasonable. Graphical abstract Image 1 Highlights • Hydrophobic inhibitors were extended in aqueous, on sheet and in target-complexes. • Hydrophilic inhibitors were bent in aqueous and complexes, but extended on sheet. • Each inhibitor was varied conformations with chemical features. • However, they were considered to be physicochemically reasonable. [ABSTRACT FROM AUTHOR]

Published

2019

20. When More Is Not Better: Expanded Polyglutamine Domains in Neurodegenerative Disease

Author

Murphy, Regina M., Walters, Robert H., Tobelmann, Matthew D., Bernacki, Joseph P., Rahimi, Farid, editor, and Bitan, Gal, editor

Published

2012

21. Polyserine repeats promote coiled coil-mediated fibril formation and length-dependent protein aggregation.

Author

Lilliu, Elena, Villeri, Veronica, Pelassa, Ilaria, Cesano, Federico, Scarano, Domenica, and Fiumara, Ferdinando

Subjects

*HUNTINGTON disease, *NEUROLOGICAL disorders, *POLYGLUTAMINE, *PEPTIDES, *SERINE

Abstract

Abstract Short polyserine (polyS) repeats are frequently found in proteins and longer ones are produced in neurological disorders such as Huntington disease (HD) owing to translational frameshifting or non-ATG-dependent translation, together with polyglutamine (polyQ) and polyalanine (polyA) repeats, forming intracellular aggregates. However, the physiological and pathological structures of polyS repeats are not clearly understood. Early studies highlighted their structural versatility, similar to other homopolymers whose conformation is influenced by the surrounding protein context. As polyS stretches are frequently near polyQ and polyA repeats, which can be part of coiled coil (CC) structures, and the frameshift-derived polyS repeats in HD directly flank CC heptads important for aggregation, we investigate here the structural and aggregation properties of polyS in the context of CC structures. We have taken advantage of peptide models, previously used to study polyQ and polyA in CCs, in which we inserted polyS repeats of variable length and studied them in comparison with polyQ and polyA peptides. We found that polyS repeats promote CC-mediated polymerization and fibrillization as revealed by circular dichroism, chemical crosslinking, and atomic force microscopy. Furthermore, they promote CC-based, length-dependent intracellular aggregation, which is negligible with 7 and widespread with 49 serines. These findings show that polyS repeats can participate in the formation of CCs, as previously found for polyQ and polyA, conferring to peptides distinctive structural properties with aggregation kinetics that are intermediate between those of polyA and polyQ CCs, and contribute to an overall structural definition of the pathophysiogical roles of homopolymeric repeats in CC structures. [ABSTRACT FROM AUTHOR]

Published

2018

22. Midface toddler excoriation syndrome (MiTES) can be caused by autosomal recessive biallelic mutations in a gene for congenital insensitivity to pain, PRDM12.

Author

Moss, C., Srinivas, S.M., Sarveswaran, N., Nahorski, M., Gowda, V.K., Browne, F.M., and Woods, G.

Subjects

*GENETIC disorders, *PEDIATRIC dermatology, *NEUROPATHY, *SKIN diseases, *HUMAN abnormalities, *POLYALANINE

Abstract

Summary: Background: Midface toddler excoriation syndrome (MiTES) is a condition recently reported in three unrelated children. Habitual scratching from the first year of life inflicted deep, chronic, scarring wounds around the nose and eyes. One child had a mild neurological deficit but there was no other evidence of insensitivity to pain. Bilateral distribution and localization to the midface distinguish MiTES from other causes of self‐inflicted skin damage such as trigeminal trophic syndrome. An earlier study of five siblings from a consanguineous Irish family, with lesions corresponding to MiTES plus other sensory deficits, showed homozygous mutations in a gene for hereditary sensory and autonomic neuropathy type VIII (HSAN8), PRDM12. Objectives: To study further cases of MiTES, including analysis of PRDM12. Methods: We describe five further children, from four families, with facial lesions typical of MiTES, in whom mutation analysis of PRDM12 was carried out. Results: Homozygous or compound heterozygous pathogenic expansions of the PRDM12 polyalanine tract were found in four of five affected individuals, in three families. Conclusions: Our finding of autosomal recessive mutations in PRDM12 in four of five patients with MiTES extends the phenotypic spectrum of PRDM12 mutations, which usually cause HSAN8, characterized by mutilating self‐inflicted wounds of the extremities, lips and tongue. By contrast, MiTES shows severe midfacial lesions with little if any evidence of generalized pain insensitivity. The condition is probably genetically heterogeneous, and other congenital insensitivity to pain and HSAN genes such as SCN11A may be implicated. This new understanding of the nature of MiTES, which can masquerade as factitious disease, will facilitate appropriate management. What's already known about this topic? Midface toddler excoriation syndrome (MiTES) is a newly recognized condition, described in three children, characterized by severe, chronic, scarring, self‐inflicted midface excoriations, commencing in infancy.MiTES resembles fabricated and induced illness.The gene PRDM12 is responsible for an autosomal recessive disorder, hereditary sensory and autonomic neuropathy type VIII (HSAN8), characterized by congenital insensitivity to pain with ulceration to the extremities.A family with mild manifestations of HSAN8 and MiTES lesions had homozygous mutations in PRDM12. What does this study add? We report a further five children with MiTES, in four families.Mutation analysis revealed biallelic mutations in PRDM12 in four children in three families. No mutations were found in the fifth child.This confirms MiTES as a recessive disorder of pain sensation, which is probably genetically heterogeneous.This new finding will improve our understanding of children presenting with this condition. Linked Comment:Greenblatt and Mellerio. Br J Dermatol 2018; 179:1029. Respond to this article Plain language summary available online [ABSTRACT FROM AUTHOR]

Published

2018

23. The genetics of congenital central hypoventilation syndrome: clinical implications.

Author

Bishara, John, Keens, Thomas G, and Perez, Iris A

Subjects

AUTONOMIC nervous system, CONGENITAL central hypoventilation syndrome, POLYALANINE, GENETIC testing, GENETIC counseling

Abstract

Congenital central hypoventilation syndrome (CCHS) is a rare genetic disorder of the autonomic nervous system (ANS) and respiratory control. This disorder, formerly referred to as Ondine's curse, is due to a mutation in the PHOX2B gene that affects the development of the neural crest cells. CCHS has an autosomal dominant pattern of inheritance. Majority of the patients have a polyalanine repeat mutation (PARM) of the PHOX2B, while a small group has non-PARM (NPARM). Knowledge of the patient's PHOX2B gene mutation helps predict a patient's clinical presentation and outcome and aids in anticipatory management of the respiratory and ANS dysfunction. [ABSTRACT FROM AUTHOR]

Published

2018

24. Single-layer solar cell based on nanostructure of polyaniline on fluorine-doped tin oxide: a simple, low-cost and efficient FTO│n-PANI│Al cell.

Author

Sedighi-Darijani, Naeem, Modarresi-Alam, Ali Reza, Noroozifar, Meissam, and Hadavi, Mohammad Saeed

Subjects

*SOLAR cells, *NANOSTRUCTURED materials, *POLYALANINE, *FLUORINE, *TIN oxides, *FOURIER transform infrared spectroscopy

Abstract

Nanostructure of polyaniline (n-PANI) is assembled to form a polymer solar cell on fluorine-doped tin oxide (FTO) and aluminum electrodes. The characterization and doping process of n-PANI are verified by ultraviolet–visible (UV–Vis) and Fourier transform infrared spectroscopies. The n-PANI conductivity is in the semiconductive range, and its contact resistance is determined by circular-TLM. The morphologies of n-PANI, FTO and n-PANI film deposited on FTO surface are investigated using atomic force microscopy, scanning electron microscope and transmission electron microscopy. The energy levels of HOMO and LUMO and band gap energy are obtained by cyclic voltammetry and UV–Vis spectroscopy. The similar results are found for band gap energy. The photovoltaic cell characteristics, i.e., open-circuit voltage (VOC), short-circuit current density (JSC), fill factor and power conversion efficiency (PCE or η), are evaluated by measuring the current density–voltage (J–V) under illumination condition and resistance measurements and are found to be 936 mV, 2.72 mA/cm2, 0.377 and 1.6%, respectively, for FTO│n-PANI│Al structure. The mechanism of photoelectron conduction within the cell is studied by the electrochemical impedance spectroscopy. The results shows that not only FTO│n-PANI│Al cell is completely efficient (in comparison with other similar cells, PCE is relatively high), but also its fabrication is of low cost, simple, oxidation resistant and under the green condition. [ABSTRACT FROM AUTHOR]

Published

2018

25. Enhanced Sampling of Molecular Dynamics Simulations of a Polyalanine Octapeptide: Effects of the Periodic Boundary Conditions on Peptide Conformation.

Author

Kota Kasahara, Shun Sakuraba, and Ikuo Fukuda

Subjects

*MOLECULAR dynamics, *POLYALANINE, *PEPTIDES, *BOUNDARY value problems, *MOLECULAR conformation

Abstract

We investigate the problem of artifacts caused by the periodic boundary conditions (PBC) used in molecular simulation studies. Despite the long history of simulations with PBCs, the existence of measurable artifacts originating from PBCs applied to inherently nonperiodic physical systems remains controversial. Specifically, these artifacts appear as differences between simulations of the same system but with different simulation-cell sizes. Earlier studies have implied that, even in the simple case of a small model peptide in water, sampling inefficiency is a major obstacle to understanding these artifacts. In this study, we have resolved the sampling issue using the replica exchange molecular dynamics (REMD) enhanced-sampling method to explore PBC artifacts. Explicitly solvated zwitterionic polyalanine octapeptides with three different cubic-cells, having dimensions of L = 30, 40, and 50 Å, were investigated to elucidate the differences with 64 replica × 500 ns REMD simulations using the AMBER parm99SB force field. The differences among them were not large overall, and the results for the L = 30 and 40 Å simulations in the conformational free energy landscape were found to be very similar at room temperature. However, a small but statistically significant difference was seen for L = 50 Å. We observed that extended conformations were slightly overstabilized in the smaller systems. The origin of these artifacts is discussed by comparison to an electrostatic calculation method without PBCs. [ABSTRACT FROM AUTHOR]

Published

2018

26. <italic>ARCIMBOLDO</italic> on coiled coils.

Author

Caballero, Iracema, Sammito, Massimo, Millán, Claudia, Lebedev, Andrey, Soler, Nicolas, and Usón, Isabel

Subjects

*POLYALANINE, *AMINO acids, *ANISOTROPY

Abstract

ARCIMBOLDO solves the phase problem by combining the location of small model fragments using Phaser with density modification and autotracing using SHELXE. Mainly helical structures constitute favourable cases, which can be solved using polyalanine helical fragments as search models. Nevertheless, the solution of coiled‐coil structures is often complicated by their anisotropic diffraction and apparent translational noncrystallographic symmetry. Long, straight helices have internal translational symmetry and their alignment in preferential directions gives rise to systematic overlap of Patterson vectors. This situation has to be differentiated from the translational symmetry relating different monomers. ARCIMBOLDO_LITE has been run on single workstations on a test pool of 150 coiled‐coil structures with 15–635 amino acids per asymmetric unit and with diffraction data resolutions of between 0.9 and 3.0 Å. The results have been used to identify and address specific issues when solving this class of structures using ARCIMBOLDO. Features from Phaser v.2.7 onwards are essential to correct anisotropy and produce translation solutions that will pass the packing filters. As the resolution becomes worse than 2.3 Å, the helix direction may be reversed in the placed fragments. Differentiation between true solutions and pseudo‐solutions, in which helix fragments were correctly positioned but in a reverse orientation, was found to be problematic at resolutions worse than 2.3 Å. Therefore, after every new fragment‐placement round, complete or sparse combinations of helices in alternative directions are generated and evaluated. The final solution is once again probed by helix reversal, refinement and extension. To conclude, density modification and SHELXE autotracing incorporating helical constraints is also exploited to extend the resolution limit in the case of coiled coils and to enhance the identification of correct solutions. This study resulted in a specialized mode within ARCIMBOLDO for the solution of coiled‐coil structures, which overrides the resolution limit and can be invoked from the command line (keyword coiled_coil) or ARCIMBOLDO_LITE task interface in CCP4i. [ABSTRACT FROM AUTHOR]

Published

2018

27. Mixture of Rectangular and Staggered Packing Arrangements of Polyalanine Region in Spider Dragline Silk in Dry and Hydrated States As Revealed by 13C NMR and X-ray Diffraction.

Author

Tetsuo Asakura, Yugo Tasei, Akihiro Aoki, and Akio Nishimura

Subjects

*POLYALANINE, *DRAGLINES, *HYDRATES, *NUCLEAR magnetic resonance spectroscopy, *X-ray diffraction

Abstract

For the first time, we determined the relative percentages of "rectangular" and "staggered" packing arrangements in the crystalline polyalanine regions with antiparallel β-sheet structure within spider dragline silk fiber from Nephila clavata (NCF) and recombinant silk protein (RSP). The methods used included X-ray diffraction and 13C NMR coupled with selective 13C isotope labeling of the Ala Cβ carbons. From deconvolution analyses of the Ala Cβ peaks in the 13C CP/MAS NMR spectra, the relative percentages of the rectangular arrangements in [3-13C]Ala-NCF were determined to be 49 ± 8% and 40 ± 7% in the dry and hydrated states, respectively, and in [3-13C]Ala-RSP 62 ± 11% and 81 ± 5% in the dry and hydrated states, respectively. Thus, the packing structure changed significantly between the two spider silks and also between the two physical states. The use of NMR was critical in this analysis; from X-ray diffraction patterns alone it would have been difficult to obtain these quantitative data. [ABSTRACT FROM AUTHOR]

Published

2018

28. A Novel FOXL2 Mutation Implying Blepharophimosis-Ptosis-Epicanthus Inversus Syndrome Type I.

Author

Li, Fang, Chai, Peiwei, Fan, Jiayan, Wang, Xi, Lu, Wenjuan, Li, Jin, Ge, Shengfang, Jia, Renbing, Zhang, He, and Fan, Xianqun

Subjects

*BLEPHAROPTOSIS, *GENETIC mutation, *PREMATURE ovarian failure, *MOLECULAR genetics, *POLYALANINE

Abstract

Background/Aims: Blepharophimosis-ptosis-epicanthus inversus syndrome (BPES) is a rare autosomal dominant disease caused by FOXL2 gene mutations, and it is clinically characterized by an eyelid malformation associated (type I) or not (type II) with premature ovarian failure (POF). Functional study of novel mutations is especially critical for female patients, as it may allow the prediction of infertility and early planning of an appropriate therapy. Methods: A clinical and molecular genetic investigation was performed in all members of a Chinese family with BPES. Genomic DNA was extracted, and the FOXL2 coding region was sequenced. Subcellular localization was performed by confocal microscopy. Transactivation studies were performed by real-time PCR, dual luciferase reporter assays and electrophoretic mobility shift assays. Results: A novel deletion mutation (C.634_641 del, CCCATGC) between the forkhead domain and the polyalanine domain was found, resulting in a frameshift mutation and a truncated protein. Functional studies showed a strong cytoplasmic mislocalization and abnormal transactivation activity, implying a type I kind mutation with a large chance of infertility. Conclusion: This study identifies that this mutation indicates the probability of developing into POF and shows the importance and necessity of early recognition of BPES type through mutation testing for female patients. Prompt personalized therapy and follow-up is of great clinical significance for female patients carrying this kind of mutation. [ABSTRACT FROM AUTHOR]

Published

2018

29. Mechanism and evolutionary origins of alanine-tail C-degron recognition by E3 ligases Pirh2 and CRL2-KLHDC10.

Author

Patil, Pratik Rajendra, Burroughs, A. Maxwell, Misra, Mohit, Cerullo, Federico, Costas-Insua, Carlos, Hung, Hao-Chih, Dikic, Ivan, Aravind, L., and Joazeiro, Claudio A.P.

Abstract

In ribosome-associated quality control (RQC), nascent polypeptides produced by interrupted translation are modified with C-terminal polyalanine tails ("Ala-tails") that function outside ribosomes to induce ubiquitylation by E3 ligases Pirh2 (p53-induced RING-H2 domain-containing) or CRL2 (Cullin-2 RING ligase2)-KLHDC10. Here, we investigate the molecular basis of Ala-tail function using biochemical and in silico approaches. We show that Pirh2 and KLHDC10 directly bind to Ala-tails and that structural predictions identify candidate Ala-tail-binding sites, which we experimentally validate. The degron-binding pockets and specific pocket residues implicated in Ala-tail recognition are conserved among Pirh2 and KLHDC10 homologs, suggesting that an important function of these ligases across eukaryotes is in targeting Ala-tailed substrates. Moreover, we establish that the two Ala-tail-binding pockets have convergently evolved, either from an ancient module of bacterial provenance (Pirh2) or via tinkering of a widespread C-degron-recognition element (KLHDC10). These results shed light on the recognition of a simple degron sequence and the evolution of Ala-tail proteolytic signaling. [Display omitted] • Basis for Ala-tail C-degron recognition by Pirh2 and KLHDC10 E3 ligases • The Ala-tail-binding site in Pirh2 has bacterial origin • The Ala-tail-specific E3, Pirh2, was inherited from the last eukaryotic common ancestor Ribosome-associated quality control (RQC) modifies incomplete polypeptides produced by ribosomal stalling with C-terminal alanine-tail degrons. In humans, alanine-tailed (Ala-tailed) proteins are ubiquitylated by E3 ligases Pirh2 and CRL2-KLHDC10, but how Ala-tails are sensed remained unclear. Patil et al. provide a structural basis for Ala-tail recognition and insights into its evolution. [ABSTRACT FROM AUTHOR]

Published

2023

30. A New Smoothing-Based Global Optimization Algorithm for Protein Conformation Problems

Author

Azmi, Aqil M., Byrd, Richard H., Eskow, Elizabeth, Schnabel, Robert B., Pardalos, Panos, editor, and Pintér, János D., editor

Published

2006

31. Characterizing the Switching Transitions of an Adsorbed Peptide by Mapping the Potential Energy Surface.

Author

Ross-Naylor, James A., Mijajlovic, Milan, Hu Zhang, and Biggs, Mark J.

Subjects

*POTENTIAL energy surfaces, *SURFACE energy, *PEPTIDES, *POLYALANINE, *CONFORMATIONAL analysis

Abstract

Peptide adsorption occurs across technology, medicine, and nature. The functions of adsorbed peptides are related to their conformation. In the past, molecular simulation methods such as molecular dynamics have been used to determine key conformations of adsorbed peptides. However, the transitions between these conformations often occur too slowly to be modeled reliably by such methods. This means such transitions are less well understood. In the study reported here, discrete path sampling is used for the first time to study the potential energy surface of an adsorbed peptide (polyalanine) and the transition pathways between various stable adsorbed conformations that have been identified in prior work by two of the authors [Mijajlovic, M.; Biggs, M. J. J. Phys. Chem. C 2007, 111, 15839-15847]. Mechanisms for the switching of adsorbed polyalanine between the stable conformations are elucidated along with the energetics of these switches. [ABSTRACT FROM AUTHOR]

Published

2017

32. NMR Investigation about Heterogeneous Structure and Dynamics of Recombinant Spider Silk in the Dry and Hydrated States.

Author

Yugo Tasei, Akio Nishimura, Yu Suzuki, Sato, Takehiro K., Junichi Sugahara, and Tetsuo Asakura

Subjects

*SPIDER silk, *RECOMBINANT proteins, *POLYALANINE, *HYDRATES, *NUCLEAR magnetic resonance spectroscopy, *MOLECULAR structure

Abstract

Spider silks continue to attract researchers because of their excellent mechanical properties and supercontraction behavior. In this paper, the structure and dynamics of recombinant spider silk protein (RSP) were characterized using 13C CP/MAS, 13C DD/MAS, and 13C refocused-INEPT NMR spectroscopies in the dry and hydrated states. The fractions of several structures of RSP with helical, random coil, and β-sheet polyalanine sequences were determined from the CP/MAS NMR spectra in the dry state. The CP/MAS NMR spectra changed to very simple one with dominant β-sheet Ala peaks by hydration due to a significant loss in CP signals of the other mobile carbons. On the contrary, only sharp mobile peaks, and both mobile and immobile peaks could be observed in the refocused-INEPT and DD/MAS NMR spectra, respectively. The cis/trans proportion of the Gly-Pro bond was also determined. Our measurements provide new insight into understanding the supercontraction phenomenon of spider silks. [ABSTRACT FROM AUTHOR]

Published

2017

33. Hydration properties of the polyalanines by atomistic molecular dynamics.

Author

Malaspina, Thaciana, De Oliveira Outi, Felipe, Colherinhas, Guilherme, and Fileti, Eudes E.

Subjects

*POLYALANINE, *MOLECULAR dynamics, *HYDRATION kinetics, *HYDROPHOBIC interactions, *PEPTIDE analysis

Abstract

Polyalanine chains have been extensively considered in the context of the development of peptides for self-organization of peptide nanostructures. Atomistic molecular dynamics simulations allowed us to analyze the structure and thermodynamics of the hydration of four polyalanines: A 3 , A 6 , A 9 and A 12 . These chains have been considered to interact exactly as lipid in a peptide nanostructure, however our results show that such a view is inaccurate since alanine tails must interact strongly with each other, not only because of the hydrophobic interactions of side chains but also because of their hydrophilic groups. Our results show that the hydration free energy of such chains varies linearly with the length of the polyalanine, is strongly negative and is mostly driven by enthalpy. There is an entropic penalty, however, which is not enough to compensate for the enthalpic gain obtained in the hydration process. [ABSTRACT FROM AUTHOR]

Published

2017

34. N-Protonated Isomers and Coulombic Barriers to Dissociation of Doubly Protonated AlaArg.

Author

Haeffner, Fredrik and Irikura, Karl

Subjects

*PROTEOMICS, *TANDEM mass spectrometry, *COMPUTATIONAL chemistry, *AMINO acid sequence, *GAS phase reactions, *ORGANIC chemistry, *CHEMICAL kinetics

Abstract

Collision-induced dissociation (or tandem mass spectrometry, MS/MS) of a protonated peptide results in a spectrum of fragment ions that is useful for inferring amino acid sequence. This is now commonplace and a foundation of proteomics. The underlying chemical and physical processes are believed to be those familiar from physical organic chemistry and chemical kinetics. However, first-principles predictions remain intractable because of the conflicting necessities for high accuracy (to achieve qualitatively correct kinetics) and computational speed (to compensate for the high cost of reliable calculations on such large molecules). To make progress, shortcuts are needed. Inspired by the popular mobile proton model, we have previously proposed a simplified theoretical model in which the gas-phase fragmentation pattern of protonated peptides reflects the relative stabilities of N-protonated isomers, thus avoiding the need for transition-state information. For singly protonated Ala ( n = 3-11), the resulting predictions were in qualitative agreement with the results from low-energy MS/MS experiments. Here, the comparison is extended to a model tryptic peptide, doubly protonated AlaArg. This is of interest because doubly protonated tryptic peptides are the most important in proteomics. In comparison with experimental results, our model seriously overpredicts the degree of backbone fragmentation at N. We offer an improved model that corrects this deficiency. The principal change is to include Coulombic barriers, which hinder the separation of the product cations from each other. Coulombic barriers may be equally important in MS/MS of all multiply charged peptide ions. [ABSTRACT FROM AUTHOR]

Published

2017

35. Extensive phenotyping of two ARX polyalanine expansion mutation mouse models that span clinical spectrum of intellectual disability and epilepsy.

Author

Jackson, Matilda R., Lee, Kristie, Mattiske, Tessa, Jaehne, Emily J., Ozturk, Ezgi, Baune, Bernhard T., O'Brien, Terence J., Jones, Nigel, and Shoubridge, Cheryl

Subjects

*INTELLECTUAL disabilities, *POLYALANINE, *HOMEOBOX genes, *EPILEPSY, *GENETIC mutation, *ANIMAL models in research, *LABORATORY mice, *HEALTH outcome assessment

Abstract

The Aristaless- related homeobox gene ( ARX ) is a known intellectual disability (ID) gene that frequently presents with X-linked infantile spasm syndrome as a comorbidity. ID with epilepsy in children is a chronic and devastating disorder that has poor treatment options and disease outcomes. To gain a better understanding of the role that mutations in ARX play in ID and epilepsy, we investigate ARX patient mutations modelled in mice. Over half of all ARX mutations result from expansions of the first two polyalanine (PA1 and PA2 respectively) tracts. However, phenotypic data for the mouse modelling the more frequent ARX PA2 dup24 mutation in patients has not been reported and constitutes a barrier to understanding the molecular mechanisms involved. Here we report the first comprehensive analysis of postnatal outcomes for mice modelling disease-causing expansions to both PA1 and PA2 tracts. Both strains were found to have impaired learning and memory, reduced activity, increased anxiety and reduced sociability; with PA1 mice generally displaying greater behavioural deficits in keeping with the more severe phenotype reported in patients. In agreement with previous reports, 70% of PA1 males exhibit myoclonic seizures by two months of age, with the first observed at P18. In this report, we show 80% of PA2 males also display myoclonic seizures, with the first observed at P19. Consistent with patient phenotypes, we observe large variations in seizure progression and severity for both PA1 and PA2 individual mice. The generation of this comprehensive baseline data is a necessary step on the path to the development of therapies to improve patient outcomes. [ABSTRACT FROM AUTHOR]

Published

2017

36. ARX polyalanine expansion mutations lead to migration impediment in the rostral cortex coupled with a developmental deficit of calbindin-positive cortical GABAergic interneurons.

Author

Lee, K., Ireland, K., Bleeze, M., and Shoubridge, C.

Subjects

*HOMEOBOX genes, *POLYALANINE, *GENETIC mutation, *CALBINDIN, *GABAERGIC neurons, *NEURON development

Abstract

The Aristaless-related homeobox gene ( ARX ) is indispensable for interneuron development. Patients with ARX polyalanine expansion mutations of the first two tracts (namely PA1 and PA2) suffer from intellectual disability of varying severity, with seizures a frequent comorbidity. The impact of PA1 and PA2 mutations on the brain development is unknown, hindering the search for therapeutic interventions. Here, we characterized the disturbances to cortical interneuron development in mice modeling the two most common ARX polyalanine expansion mutations in human. We found a consistent ∼40–50% reduction of calbindin-positive interneurons, but not Stt+ or Cr+ interneurons, within the cortex of newborn hemizygous mice ( p = 0.024 ) for both mutant strains compared to wildtype ( p = 0.011 ). We demonstrate that this was a consequence of calbindin precursor cells being arrested or delayed at the ventral subpallium en route of tangential migration. Ex-vivo assay validated this migration deficit in PA1 cells ( p = 0.0002 ) suggesting that the defect is contributed by intrinsic loss of Arx function within migrating cells. Both humans and mice with PA1 mutations present with severe clinical features, including intellectual disability and infantile spasms. Our data further demonstrated the pathogenic mechanism was robustly shared between PA1 and PA2 mutations, as previously reported including Arx protein reduction and overlapping transcriptome profiles within the developing mouse brains. Data from our study demonstrated that cortical calbindin interneuron development and migration is negatively affected by ARX polyalanine expansion mutations. Understanding the cellular pathogenesis contributing to disease manifestation is necessary to screen efficacy of potential therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published

2017

37. Common PHOX2B poly-alanine contractions impair RET gene transcription, predisposing to Hirschsprung disease.

Author

Di Zanni, Eleonora, Adamo, Annalisa, Belligni, Elga, Lerone, Margherita, Martucciello, Giuseppe, Mattioli, Girolamo, Pini Prato, Alessio, Ravazzolo, Roberto, Silengo, Margherita, Bachetti, Tiziana, and Ceccherini, Isabella

Subjects

*POLYALANINE, *HIRSCHSPRUNG'S disease, *PROTO-oncogenes, *GENETIC transcription, *DOWNREGULATION

Abstract

HSCR is a congenital disorder of the enteric nervous system, characterized by the absence of neurons along a variable length of the gut resulting from loss-of-function RET mutations. Congenital Central Hypoventilation Syndrome (CCHS) is a rare neurocristopathy characterized by impaired response to hypercapnia and hypoxemia caused by heterozygous mutations of the PHOX2B gene, mostly polyalanine (polyA) expansions but also missense, nonsense, and frameshift mutations, while polyA contractions are common in the population and believed neutral. HSCR associated CCHS can present in patients carrying PHOX2B mutations. Indeed, RET expression is orchestrated by different transcriptional factors among which PHOX2B, thus suggesting its possible role in HSCR pathogenesis. Following the observation of HSCR patients carrying in frame trinucleotide deletions within the polyalanine stretch in exon 3 (polyA contractions), we have verified the hypothesis that these PHOX2B variants do reduce its transcriptional activity, likely resulting in a down-regulation of RET expression and, consequently, favouring the development of the HSCR phenotype. Using proper reporter constructs, we show here that the in vitro transactivation of the RET promoter by different HSCR-associated PHOX2B polyA variants has resulted significantly lower compared to the effect of PHOX2B wild type protein. In particular, polyA contractions do induce a reduced transactivation of the RET promoter, milder compared to the severe polyA expansions associated with CCHS + HSCR, and correlated with the length of the deleted trait, with a more pronounced effect when contractions are larger. [ABSTRACT FROM AUTHOR]

Published

2017

38. Thermo-sensitive random poly( L -alanine- co - L -lactic acid) with no cytotoxicity by the structure-controlled synthesis for a nano-drug carrier.

Author

Yue, Ying, Zhao, Man, Xu, Junlian, Yang, Zhen, Zheng, Chang, Fan, Zhihui, Cao, Lili, Zhang, Miao, and Deng, Kuilin

Subjects

*BIOSYNTHESIS, *POLYALANINE, *THERMAL analysis, *POLYLACTIC acid, *CELL-mediated cytotoxicity, *DRUG carriers

Abstract

A random poly(L-alanine-co-L-lactic acid) (PAL) with excellent thermo-sensitivity and no cytotoxicity was synthesized by the structure-controlled polycondensation from naturalL-alanine andL-lactic acid. Only those PALs in which the contents ofL-alanine structural unit are rigidly controlled in the smaller range of 53–65% show a reversible lower critical solution temperature of 35–60°C. The change of secondary structure in poly(L-alanine) segments by the introduction ofL-lactic acid structural unit plays a decisive role in regulating the thermo-sensitivity of PAL. The viability of HeLa cells exposed to PAL reaches up to 91–116% after incubation of 24 and 72 h, indicating no cytotoxicity. Furthermore, PAL can easily form curcumin-loaded nano-carriers through its thermo-sensitivity and self-assembly. The curcumin-loaded PAL nano-particles are observed to clearly internalize into the cells by confocal laser-scanning microscopy, and thus can be used as a potential nano-drug-carrier. [ABSTRACT FROM AUTHOR]

Published

2017

39. Refined Crystal Structure of Samia cynthia ricini Silk Fibroin Revealed by Solid-State NMR Investigations.

Author

Tetsuo Asakura, Akio Nishimura, Shunsuke Kametani, Shuto Kawanishi, Akihiro Aoki, Furitsu Suzuki, Hironori Kaji, and Akira Naito

Subjects

*SAMIA, *SILK fibroin, *CRYSTAL structure, *NUCLEAR magnetic resonance, *POLYALANINE

Abstract

Samia cynthia ricini is one of the wild silkworms and its silk fibroin (SF) consists of alternatively repeating poly-l-alanine (PLA) sequences as crystalline domain and glycine-rich sequences as noncrystalline domain; the structure is similar to those of spider silk and other wild silkworm silks. In this paper, we proposed a new staggered model for the packing arrangement of the PLA sequence through the use of the Cambridge Serial Total Energy Package program and a comparison of the observed and calculated chemical shifts of the PLA sequence with the Gauge Including Projector Augmented Wave method. The new model was supported by the interatomic distance information from the cross peaks of Ala Cβ dipolar-assisted rotational resonance (DARR) spectrum of the PLA sequences in S. c. ricini SF fiber. In addition, three 13C NMR peaks observed in the β-sheet region were assigned to the carbons with different environments in the same model, but not assigned to different β-sheet structures. [ABSTRACT FROM AUTHOR]

Published

2017

40. Convenient synthetic approach to poly( N-Methyl L-alanine) through polycondensation of activated urethane derivative of N-methyl L-alanine.

Author

Shiraki, Yusuke, Yamada, Shuhei, and Endo, Takeshi

Subjects

*POLYALANINE, *POLYCONDENSATION, *URETHANE, *CHEMICAL derivatives, *POLYPEPTIDES

Abstract

This study describes a convenient and phosgene ‐ free synthesis of poly(N ‐ methyl L ‐ alanine) with solubility in water using polycondensation of activated urethane derivative of N ‐ methyl L ‐ alanine was described. The polycondensation of activated urethane derivative was heated at 60 °C with n ‐ butylamine as an initiator to give the corresponding poly(N ‐ methyl L ‐ alanine), accompanying the elimination of phenol and CO2. The investigation of SEC and MALDI TOF mass spectrometry characterized the control of molecular weight and terminal structure. [ABSTRACT FROM AUTHOR]

Published

2017

41. RUNX2 repeat variation does not drive craniofacial diversity in marsupials.

Author

Newton, Axel H., Feigin, Charles Y., and Pask, Andrew J.

Subjects

*MARSUPIALS, *TRANSCRIPTION factors, *POLYGLUTAMINE, *POLYALANINE, *OSSIFICATION

Abstract

Background: Runt-related transcription factor 2 (RUNX2) is a transcription factor essential for skeletal development. Variation within the RUNX2 polyglutamine / polyalanine (QA) repeat is correlated with facial length within orders of placental mammals and is suggested to be a major driver of craniofacial diversity. However, it is not known if this correlation exists outside of the placental mammals. Results: Here we examined the correlation between the RUNX2 QA repeat ratio and facial length in the naturally evolving sister group to the placental mammals, the marsupials. Marsupials have a diverse range of facial lengths similar to that seen in placental mammals. Despite their diversity there was almost no variation seen in the RUNX2 QA repeat across individuals spanning the entire marsupial infraclass. The extreme conservation of the marsupial RUNX2 QA repeat indicates it is under strong purifying selection. Despite this, we observed an unexpectedly high level of repeat purity. Conclusions: Unlike within orders of placental mammals, RUNX2 repeat variation cannot drive craniofacial diversity in marsupials. We propose conservation of the marsupial RUNX2 QA repeat is driven by the constraint of accelerated ossification of the anterior skeleton to facilitate life in the pouch. Thus, marsupials must utilize alternate pathways to placental mammals to drive craniofacial evolution. [ABSTRACT FROM AUTHOR]

Published

2017

42. Nonpolar Solvation Free Energy from Proximal Distribution Functions.

Author

Shu-Ching Ou, Drake, Justin A., and Pettitt, B. Montgomery

Subjects

*SOLVATION, *FREE energy (Thermodynamics), *ELECTROSTATICS, *POLYALANINE, *PROPANOLS

Abstract

Using precomputed near neighbor or proximal distribution functions (pDFs) that approximate solvent density about atoms in a chemically bonded context one can estimate the solvation structures around complex solutes and the corresponding solute-solvent energetics. In this contribution, we extend this technique to calculate the solvation free energies (ΔG) of a variety of solutes. In particular we use pDFs computed for small peptide molecules to estimate ΔG for larger peptide systems. We separately compute the non polar (ΔGvdW) and electrostatic (ΔGelec) components of the underlying potential model. Here we show how the former can be estimated by thermodynamic integration using pDF-reconstructed solute-solvent interaction energy. The electrostatic component can be approximated with Linear Response theory as half of the electrostatic solute-solvent interaction energy. We test the method by calculating the solvation free energies of butane, propanol, polyalanine, and polyglycine and by comparing with traditional free energy simulations. Results indicate that the pDF-reconstruction algorithm approximately reproduces ΔGvdW calculated by benchmark free energy simulations to within ~ kcal/mol accuracy. The use of transferable pDFs for each solute atom allows for a rapid estimation of ΔG for arbitrary molecular systems. [ABSTRACT FROM AUTHOR]

Published

2017

43. Expanded polyalanine tracts function as nuclear export signals and promote protein mislocalization via eEF1A1 factor.

Author

Li Li, Ka Lam Ng, Nelson, Chun Koon, Alex, and Chan, Ho Yin Edwin

Subjects

*POLYALANINE, *HYPOVENTILATION, *OCULOPHARYNGEAL muscular dystrophy, *CYTOPLASM, *EUKARYOTIC cells

Abstract

Polyalanine (poly(A)) diseases are caused by the expansion of translated GCN triplet nucleotide sequences encoding poly(A) tracts in proteins. To date, nine human disorders have been found to be associated with poly(A) tract expansions, including congenital central hypoventilation syndrome and oculopharyngeal muscular dystrophy. Previous studies have demonstrated that unexpanded wild-type poly(A)-containing proteins localize to the cell nucleus, whereas expanded poly(A)-containing proteins primarily localize to the cytoplasm. Because most of these poly(A) disease proteins are transcription factors, this mislocalization causes cellular transcriptional dysregulation leading to cellular dysfunction. Correcting this faulty localization could potentially point to strategies to treat the aforementioned disorders, so there is a pressing need to identify the mechanisms underlying the mislocalization of expanded poly(A) protein. Here, we performed a glutathione S-transferase pulldown assay followed by mass spectrometry and identified eukaryotic translation elongation factor 1+1 (eEF1A1) as an interacting partner with expanded poly(A)-containing proteins. Strikingly, knockdown of eEF1A1 expression partially corrected the mislocalization of the expanded poly(A) proteins in the cytoplasm and restored their functions in the nucleus. We further demonstrated that the expanded poly(A) domain itself can serve as a nuclear export signal. Taken together, this study demonstrates that eEF1A1 regulates the subcellular location of expanded poly(A) proteins and is therefore a potential therapeutic target for combating the pathogenesis of poly(A) diseases. [ABSTRACT FROM AUTHOR]

Published

2017

44. Three-body expansion of the fragment molecular orbital method combined with density-functional tight-binding.

Author

Nishimoto, Yoshio and Fedorov, Dmitri G.

Subjects

*MOLECULAR orbitals, *DENSITY functional theory, *GAS phase reactions, *POLYALANINE, *SODIUM ions

Abstract

The three-body fragment molecular orbital (FMO3) method is formulated for density-functional tight-binding (DFTB). The energy, analytic gradient, and Hessian are derived in the gas phase, and the energy and analytic gradient are also derived for polarizable continuum model. The accuracy of FMO3-DFTB is evaluated for five proteins, sodium cation in explicit solvent, and three isomers of polyalanine. It is shown that FMO3-DFTB is considerably more accurate than FMO2-DFTB. Molecular dynamics simulations for sodium cation in water are performed for 100 ps, yielding radial distribution functions and coordination numbers. © 2017 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2017

45. Tensile Reinforcement of Silk Films by the Addition of Telechelic-Type Polyalanine.

Author

Kousuke Tsuchiya, Hiroyasu Masunaga, and Keiji Numata

Subjects

*POLYALANINE, *SILK fibroin, *POLYMERIZATION, *X-ray diffraction, *PAPAIN

Abstract

An appropriate modification technique for silk materials is needed to effectively improve their physical properties for specific applications. A telechelic-type polyalanine (T-polyA) was synthesized by papain-catalyzed polymerization as a novel reinforcing agent for silk materials. A silk fibroin obtained from Bombyx mori was homogeneously doped with T-polyA, and casting a solution of silk fibroin and T-polyA in 1,1,1,3,3,3-hexafluoro-2-propanol (HFIP) resulted in a robust and transparent film. Tensile deformation studies of the silk composite film containing T-polyA with prestretching revealed that the tensile strength and toughness were enhanced relative to those of a silk-only film. To determine the capability of T-polyA to reinforce the tensile property of silk films, the secondary structure in the silk composite film was characterized by wide-angle X-ray diffraction (WAXD) analysis. Antiparallel β-sheet structures of T-polyA and GAGAGS motifs of silk fibroin formed independently in the prestretched composite film. In addition, measuring the tensile deformation and performing WAXD analysis simultaneously demonstrated that the β-sheet structures of both T-polyA and the silk fibroin were aligned along the stretching direction and that T-polyA had no significant effect on the final morphology of the silk crystal domains. The silk film was toughened by the addition of T-polyA because of the generation of the T-polyA β-sheet in the amorphous region of the composite film. This work provides novel insight into the design and development of tough silk materials with controlled and aligned β-sheet structures. [ABSTRACT FROM AUTHOR]

Published

2017

46. Genotype Analyses in the Japanese and Belarusian Populations Reveal Independent Effects of rs965513 and rs1867277 but Do Not Support the Role of FOXE1 Polyalanine Tract Length in Conferring Risk for Papillary Thyroid Carcinoma.

Author

Nikitski, Alyaksandr V., Rogounovitch, Tatiana I., Bychkov, Andrey, Takahashi, Meiko, Yoshiura, Koh-ichiro, Mitsutake, Norisato, Kawaguchi, Takahisa, Matsuse, Michiko, Drozd, Valentina M., Demidchik, Yuri, Nishihara, Eijun, Hirokawa, Mitsuyoshi, Miyauchi, Akira, Rubanovich, Alexander V., Matsuda, Fumihiko, Yamashita, Shunichi, and Saenko, Vladimir A.

Subjects

*PAPILLARY carcinoma, *THYROID cancer, *FORKHEAD transcription factors, *GENOTYPES, *GENETIC polymorphisms, *POLYALANINE, *BELARUSIANS, *JAPANESE people, *GENETICS, *CANCER risk factors, *HEALTH

Abstract

Background: Several functional single-nucleotide polymorphisms (SNPs) at the FOXE1 locus on chromosome 9q22.33 have been associated with the risk for papillary thyroid carcinoma (PTC). This study set out to elucidate whether their effects are independent, using genotyping results in populations of Asian and European descent. Methods: SNPs rs965513 and rs1867277 and a polymorphic region determining the length of the FOXE1 polyalanine (poly-Ala) tract were genotyped in 501 patients with PTC and 748 healthy individuals from Japan, and in 660 patients and 820 population controls from Belarus. Functional analysis of transactivation activities of FOXE1 isoforms with varying number of alanine repeats was performed by a Dual-Luciferase® Assay. Results: All three polymorphisms were significantly associated with PTC in both populations on univariate analysis. However, conditional analysis revealed independent effects of rs965513 and rs1867277 SNPs but not of the FOXE1 poly-Ala polymorphism. The independent effect of the lead rs965513 SNP was observed in both populations, while that of rs1867277 was only identified in the Japanese population, in which linkage disequilibrium between the three polymorphisms is markedly weaker. Despite the strong decrease in transcriptional activity with increasing FOXE1 poly-Ala tract length, no difference in transactivation potential of the FOXE1 poly-Ala isoforms could be seen after adjustment for the minimal promoter activity in the reporter vectors. Plasmids encoding FOXE1 isoforms of increasing poly-Ala tract length were also found to produce less FOXE1 protein after cell transfection. Conclusions: The functional variants rs965513 and rs1867277 independently contribute to genetic predisposition to PTC, while a contributing role of the FOXE1 poly-Ala polymorphism could not be confirmed. [ABSTRACT FROM AUTHOR]

Published

2017

47. Association of FOXE1 polyalanine repeat region with thyroid cancer is dependent on tumour size.

Author

Raimundo, Joana, Alvelos, Maria I., Azevedo, Teresa, Martins, Teresa, Rodrigues, Fernando J., and Lemos, Manuel C.

Subjects

*POLYALANINE, *THYROID cancer, *THYROID gland tumors, *ALANINE, *TRANSCRIPTION factors

Abstract

Objective Polymorphisms in the thyroid transcription factor forkhead factor E1 ( FOXE1) gene have been implicated in the genetic susceptibility to differentiated thyroid cancer, but little is known about their effect on tumour characteristics. The objective of this study was to determine the contribution of the FOXE1 polyalanine repeat region to the susceptibility to thyroid cancer and to its clinical characteristics. Design, patients and measurements A total of 500 patients with sporadic thyroid cancer (440 papillary and 60 follicular thyroid carcinoma) and 502 healthy controls were included in this case-control association study. The number of FOXE1 alanine repeats in each subject was determined by PCR and multiplex fragment analysis by capillary electrophoresis. FOXE1 genotype and allele frequencies among groups were compared by logistic regression and adjusted for sex and age at diagnosis. Data were analysed according to cancer subtype, tumour size and the presence of lymph node or distant metastasis. Results FOXE1 alleles with 16 or more alanine repeats were more frequent in patients with tumour size > 1 cm compared to tumour size ≤ 1 cm (adjusted OR 1·44; 95% CI 1·05-1·88; P = 0·019). Genotypes containing at least one allele with 16 or more alanine repeats were associated with larger tumour size (adjusted OR 1·71; 95% CI 1·15-2·57; P = 0·009). No significant differences were observed between cancer subtypes or the presence/absence of metastasis. Conclusions FOXE1 polyalanine repeat polymorphisms are associated with thyroid cancer, but only for tumours larger than 1 cm, suggesting a role in disease progression. [ABSTRACT FROM AUTHOR]

Published

2017

48. Exploring Pain Neurobiology: Molecular Investigation of Genetic Sensory Disorders

Author

Sarveswaran, Nivedita

Subjects

Nociception, Polyalanine, Neurodevelopment, Pain, Transcription factor, Ion channel

Abstract

[Restricted], Biotechnology and Biological Sciences Research Council (BBSRC) under project reference: 1801406 and grant ID: BB/N504142/1. Research consumable costs also supported by MedImmune Ltd and AstraZeneca plc as part of iCASE studentship under supervision of Dr John Linley.

Published

2022

49. Molecular Mechanisms in Pentanucleotide Repeat Diseases

Author

Joana R. Loureiro, Ana F. Castro, Ana S. Figueiredo, and Isabel Silveira

Subjects

liquid–liquid phase separation, Base Sequence, QH301-705.5, RNA-binding protein, RNA foci, polyalanine, Neurodegenerative Diseases, Review, General Medicine, Mutagenesis, Insertional, spinocerebellar ataxia, FAME1, SCA37, Alu Elements, familial adult myoclonic epilepsy, Animals, Humans, ATTTC repeat insertion, Biology (General), polyglutamine, Alleles, Microsatellite Repeats

Abstract

The number of neurodegenerative diseases resulting from repeat expansion has increased extraordinarily in recent years. In several of these pathologies, the repeat can be transcribed in RNA from both DNA strands producing, at least, one toxic RNA repeat that causes neurodegeneration by a complex mechanism. Recently, seven diseases have been found caused by a novel intronic pentanucleotide repeat in distinct genes encoding proteins highly expressed in the cerebellum. These disorders are clinically heterogeneous being characterized by impaired motor function, resulting from ataxia or epilepsy. The role that apparently normal proteins from these mutant genes play in these pathologies is not known. However, recent advances in previously known spinocerebellar ataxias originated by abnormal non-coding pentanucleotide repeats point to a gain of a toxic function by the pathogenic repeat-containing RNA that abnormally forms nuclear foci with RNA-binding proteins. In cells, RNA foci have been shown to be formed by phase separation. Moreover, the field of repeat expansions has lately achieved an extraordinary progress with the discovery that RNA repeats, polyglutamine, and polyalanine proteins are crucial for the formation of nuclear membraneless organelles by phase separation, which is perturbed when they are expanded. This review will cover the amazing advances on repeat diseases.

Published

2022

50. Leucine-rich fibroin gene of the Japanese wild silkmoth, Rhodinia fugax (Lepidoptera: Saturniidae)

Author

Hideki SEZUTSU, Toshiki TAMURA, and Kenji YUKUHIRO

Subjects

fibroin, rhodinia fugax, repeat, polyalanine, Zoology, QL1-991

Abstract

We cloned and characterized a partial fibroin gene of Rhodinia fugax (Saturniidae). The gene encodes a fibroin consisting mainly of orderly arranged repeats, each of which is divided into a polyalanine and a nonpolyalanine block, similar to the fibroins of Antheraea pernyi and A. yamamai. Three repeat types differ in the sequence of the nonpolyalanine block. In contrast to the Antheraea fibroins, the fibroin of R. fugax is rich in glutamate and leucine residues (about 3% and 5%, respectively) and contains less alanine.

Published

2008