Your search keyword '"Sub-cellular localization"' showing total 201 results

1. Artificial intelligence-driven reverse vaccinology for Neisseria gonorrhoeae vaccine: Prioritizing epitope-based candidates

Author

Ravi Kant, Mohd. Shoaib Khan, Madhu Chopra, and Daman Saluja

Subjects

hypothetical proteins, vaccine, epitopes, functional annotation, sub-cellular localization, immuno-informatics, Biology (General), QH301-705.5

Abstract

Neisseria gonorrhoeae is the causative agent of the sexually transmitted disease gonorrhea. The increasing prevalence of this disease worldwide, the rise of antibiotic-resistant strains, and the difficulties in treatment necessitate the development of a vaccine, highlighting the significance of preventative measures to control and eradicate the infection. Currently, there is no widely available vaccine, partly due to the bacterium’s ability to evade natural immunity and the limited research investment in gonorrhea compared to other diseases. To identify distinct vaccine candidates, we chose to focus on the uncharacterized, hypothetical proteins (HPs) as our initial approach. Using the in silico method, we first carried out a comprehensive assessment of hypothetical proteins of Neisseria gonorrhoeae, encompassing assessments of physicochemical properties, cellular localization, secretary pathways, transmembrane regions, antigenicity, toxicity, and prediction of B-cell and T-cell epitopes, among other analyses. Detailed analysis of all HPs resulted in the functional annotation of twenty proteins with a great degree of confidence. Further, using the immuno-informatics approach, the prediction pipeline identified one CD8+ restricted T-cell epitope, seven linear B-cell epitopes, and seven conformational B-cell epitopes as putative epitope-based peptide vaccine candidates which certainly require further validation in laboratory settings. The study accentuates the promise of functional annotation and immuno-informatics in the systematic design of epitope-based peptide vaccines targeting Neisseria gonorrhoeae.

Published

2024

2. Exploring the association of ESR1 and ESR2 gene SNPs with polycystic ovary syndrome in human females: a comprehensive association study

Author

Fatima Muccee, Naeem Mahmood Ashraf, Suhail Razak, Tayyaba Afsar, Nadia Hussain, Fohad Mabood Husain, and Huma Shafique

Subjects

Polycystic ovary syndrome, Single nucleotide polymorphisms, Coding sequence, Sub-cellular localization, Secondary structure, Gynecology and obstetrics, RG1-991

Abstract

Abstract Background Polycystic Ovary Syndrome (PCOS) affects a significant proportion of human females worldwide and is characterized by hormonal, metabolic, and reproductive dysfunctions, including infertility, irregular menstrual cycles, acanthosis nigricans, and hirsutism. Mutations in the estrogen receptor genes ESR1 and ESR2, involved in normal follicular development and ovulation, can contribute to development of the PCOS. The present study focuses on investigating the potential correlation between single nucleotide polymorphisms (SNPs) of ESR1 and ESR2 genes and the incidence of this syndrome. Methods For this study, SNPs in ESR1 and ESR2 genes were retrieved from the ENSEMBL database and analyzed for their effect on mutated proteins using different bioinformatics tools including SIFT, PolyPhen, CADD, REVEL, MetaLR, I-Mutant, CELLO2GO, ProtParam, SOPMA, SWISS-MODEL and HDDOCK. Results All the SNPs documented in the present study were deleterious. All the SNPs except rs1583384537, rs1450198518, and rs78255744 decreased protein stability. Two variants rs1463893698 and rs766843910 in the ESR2 gene altered the localization of mutated proteins i.e. in addition to the nucleus, proteins were also found in mitochondria and extracellular, respectively. SNPs rs104893956 in ESR1 and rs140630557, rs140630557, rs1596423459, rs766843910, rs1596405923, rs762454979 and rs1384121511 in ESR2 gene significantly changed the secondary structure of proteins (2D). SNPs that markedly changed 3D configuration included rs1554259481, rs188957694 and rs755667747 in ESR1 gene and rs1463893698, rs140630557, rs1596423459, rs766843910, rs1596405923, rs762454979 and rs1384121511 in ESR2 gene. Variants rs1467954450 (ESR1) and rs140630557 (ESR2) were identified to reduce the binding tendency of ESRα and β receptors with estradiol as reflected by the docking scores i.e. -164.97 and -173.23, respectively. Conclusion Due to the significant impact on the encoded proteins, these variants might be proposed as biomarkers to predict the likelihood of developing PCOS in the future and for diagnostic purposes.

Published

2024

3. Exploring the association of ESR1 and ESR2 gene SNPs with polycystic ovary syndrome in human females: a comprehensive association study.

Author

Muccee, Fatima, Ashraf, Naeem Mahmood, Razak, Suhail, Afsar, Tayyaba, Hussain, Nadia, Husain, Fohad Mabood, and Shafique, Huma

Subjects

*POLYCYSTIC ovary syndrome, *MENSTRUAL cycle, *INDUCED ovulation, *SINGLE nucleotide polymorphisms, *GENES, *ACANTHOSIS nigricans, *PROTEIN structure, *OVARIAN follicle, *PROTEIN stability

Abstract

Background: Polycystic Ovary Syndrome (PCOS) affects a significant proportion of human females worldwide and is characterized by hormonal, metabolic, and reproductive dysfunctions, including infertility, irregular menstrual cycles, acanthosis nigricans, and hirsutism. Mutations in the estrogen receptor genes ESR1 and ESR2, involved in normal follicular development and ovulation, can contribute to development of the PCOS. The present study focuses on investigating the potential correlation between single nucleotide polymorphisms (SNPs) of ESR1 and ESR2 genes and the incidence of this syndrome. Methods: For this study, SNPs in ESR1 and ESR2 genes were retrieved from the ENSEMBL database and analyzed for their effect on mutated proteins using different bioinformatics tools including SIFT, PolyPhen, CADD, REVEL, MetaLR, I-Mutant, CELLO2GO, ProtParam, SOPMA, SWISS-MODEL and HDDOCK. Results: All the SNPs documented in the present study were deleterious. All the SNPs except rs1583384537, rs1450198518, and rs78255744 decreased protein stability. Two variants rs1463893698 and rs766843910 in the ESR2 gene altered the localization of mutated proteins i.e. in addition to the nucleus, proteins were also found in mitochondria and extracellular, respectively. SNPs rs104893956 in ESR1 and rs140630557, rs140630557, rs1596423459, rs766843910, rs1596405923, rs762454979 and rs1384121511 in ESR2 gene significantly changed the secondary structure of proteins (2D). SNPs that markedly changed 3D configuration included rs1554259481, rs188957694 and rs755667747 in ESR1 gene and rs1463893698, rs140630557, rs1596423459, rs766843910, rs1596405923, rs762454979 and rs1384121511 in ESR2 gene. Variants rs1467954450 (ESR1) and rs140630557 (ESR2) were identified to reduce the binding tendency of ESRα and β receptors with estradiol as reflected by the docking scores i.e. -164.97 and -173.23, respectively. Conclusion: Due to the significant impact on the encoded proteins, these variants might be proposed as biomarkers to predict the likelihood of developing PCOS in the future and for diagnostic purposes. [ABSTRACT FROM AUTHOR]

Published

2024

4. 马铃薯StWRKY57基因的生物信息学分析及亚细胞定位.

Author

思星如, 陈 馨, 魏 涵, 司怀军, and 张 宁

Abstract

WRKY transcription factors play important roles in plant stress resistance. According to the previous transcriptome sequencing analysis, it was found that StWRKY57 gene could up-regulate its expression under both drought and salt stress conditions. In this study, potato StWRKY57 gene was studied for bio- informatics analysis, expression analysis and sub-cellular localization. qRT-PCR technology was used to analyze its tissue-specific and abiotic stress expression. StWRKY57 gene is positioned on the chromosome 8 of potato, featuring a 762 bp coding sequence (CDS) region, and encoding a hydrophobic non-trans-membrane protein. Homology analysis showed that the protein had the highest homology with SpWRKY40 of Solanum pennellii. The promoter region contains cis- acting elements related to photo response, endosperm expression, circadian rhythm and hormone response. qRT- PCR analysis showed that the expression of the gene was the highest in leaves, and the expression was up- regulated in 200 mmol/L NaCl, 20% PEG 6000 solution and 100 µmol/L abscisic acid (ABA) treatment. The protein's sub-cellular localization assay reveals its presence within the cell nucleus. This study could provide a theoretical basis for the subsequent experiments. [ABSTRACT FROM AUTHOR]

Published

2023

5. Depiction and Annotation of Hypothetical Proteins from Oryza sativa L. by Relative Screening in Seek of Rare and Nifty Proteins.

Author

Banerjee, Arpita, Bhattacharjee, Monali, Das, Debapriya, Mullick, Renia, Dhar (Dutta), Sujata, and Roy, Debleena

Subjects

PROTEOMICS, IMMOBILIZED proteins, DRUG discovery, PROTEIN domains, PEPTIDES, RICE, ORYZA, CYTOPLASM

Abstract

Rice (Oryza sativa L.) of the family Poaceae has various genomes that are uncharacterized for their biochemical, biophysical, and/or cellular functions, are identified as Hypothetical Proteins (HPs). In this study, a comparative in silico pipeline has been used for the identification and functional annotation of 10HPs of O. sativa obtained from NCBI database. The structure, function, subcellular localization and interacting partners of the proteins were analysed along with orthology prediction to the hypothetical proteins of the data set. 90% successful annotation was done where most of the annotated HPs have functionally significant domains and protein superfamilies. Majority of the proteins were predicted to be Enzymes. Subcellular localization is a vital step for effective protein identification as subcellular localization of HPs elucidates their cellular mechanism. Most of the proteins were localized within the nucleus followed by cytoplasm, chloroplast, mitochondria, plasma membrane, extracellular matrix. No signal peptide was predicted. Mainly, the proteins had their closest orthologous members belonging to other species of Oryza. Functional analysis has revealed the role of few HPs in both biotic and abiotic stress management in the plants. The consequence of this research may be beneficial for outlining general set pipeline or etiquettes for an improved perception of the function of HPs in physiological development of several plant system. The understanding of the structure and function of these important proteins and their binding sites would be beneficial in understanding their role in metabolic pathway and in docking studies for aiding in the drug discovery. [ABSTRACT FROM AUTHOR]

Published

2023

6. OrganelX web server for sub-peroxisomal and sub-mitochondrial protein localization and peroxisomal target signal detection

Author

Marco Anteghini, Asmaa Haja, Vitor A.P. Martins dos Santos, Lambert Schomaker, and Edoardo Saccenti

Subjects

Sub-cellular localization, Sub-peroxisomal localization, Sub-mithocondrial localization, Peroxisomal-targeting-signal, Peroxisome, Biotechnology, TP248.13-248.65

Abstract

We present the OrganelX e-Science Web Server that provides a user-friendly implementation of the In-Pero and In-Mito classifiers for sub-peroxisomal and sub-mitochondrial localization of peroxisomal and mitochondrial proteins and the Is-PTS1 algorithm for detecting and validating potential peroxisomal proteins carrying a PTS1 signal sequence. The OrganelX e-Science Web Server is available at https://organelx.hpc.rug.nl/fasta/.

Published

2023

7. Effect of water deprivation for three consecutive days on the proportions of androgen receptor-immunolabeled supraoptic nucleus magnoneurons in Wistar rats.

Author

Chetoui, Samir, Touati, Hanane, Remana, Soumia, Benhaferi, Nadir, Hanniche, Nadia, Talmatamar, Amina, Benarab, Souhila, and Bougrid, Abdelkader

Subjects

ANDROGEN receptors, LABORATORY rats, MOLECULAR chaperones, IMMUNOHISTOCHEMISTRY techniques, ANDROGENS, DRINKING water

Abstract

The androgen receptor is an androgen-dependent transcription factor that belongs to the nuclear receptor superfamily. When the androgen receptor is not bound to its ligand, it is mainly localized in the cytoplasm, bound to chaperone proteins, which stabilizes its inactive conformation and confers a high affinity for the ligand. The conformational change of the androgen receptor begins when the androgen molecule binds to the receptor, which subsequently homodimerizes and it is actively translocated to the nucleus. In the nucleus, the receptor homodimers bind to androgen target genes, resulting in responses such as growth and survival. In this study, we used the immunohistochemistry technique to look for the proportions of androgen receptor-immunolabeled magnoneurons categories according to the sub-cellular localization of the receptor, in the supraoptic nucleus of control (tap water + ad-libitum food) and dehydrated male rats by tap water deprivation for three consecutive days. Our results show that the proportions of androgen receptor-immunolabeled magnoneurons would depend on the hydration status of the rats (Chi-square test of independence, P < 0.001), but this dependence relationship is weak (Cramer's v value is equal to 0.30). Indeed, based on the results of our study, we hypothesized that dehydration by water deprivation for three consecutive days in adult male rats acts mainly on both of nuclear and cytoplasmic magnoneurons categories and has very little influence on the nucleocytoplasmic magnoneurons category. The effect could be due to activation of the entry of cytoplasmic non-androgen bound androgen receptors into the nucleus, activation of degradation of nuclear non-androgen bound androgen receptors, and inhibition of the binding of androgen molecules to androgen receptors. [ABSTRACT FROM AUTHOR]

Published

2022

8. mLoc-mRNA: predicting multiple sub-cellular localization of mRNAs using random forest algorithm coupled with feature selection via elastic net

Author

Prabina Kumar Meher, Anil Rai, and Atmakuri Ramakrishna Rao

Subjects

Sub-cellular localization, Machine learning, Feature selection, Computational biology, Bioinformatics, Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5

Abstract

Abstract Background Localization of messenger RNAs (mRNAs) plays a crucial role in the growth and development of cells. Particularly, it plays a major role in regulating spatio-temporal gene expression. The in situ hybridization is a promising experimental technique used to determine the localization of mRNAs but it is costly and laborious. It is also a known fact that a single mRNA can be present in more than one location, whereas the existing computational tools are capable of predicting only a single location for such mRNAs. Thus, the development of high-end computational tool is required for reliable and timely prediction of multiple subcellular locations of mRNAs. Hence, we develop the present computational model to predict the multiple localizations of mRNAs. Results The mRNA sequences from 9 different localizations were considered. Each sequence was first transformed to a numeric feature vector of size 5460, based on the k-mer features of sizes 1–6. Out of 5460 k-mer features, 1812 important features were selected by the Elastic Net statistical model. The Random Forest supervised learning algorithm was then employed for predicting the localizations with the selected features. Five-fold cross-validation accuracies of 70.87, 68.32, 68.36, 68.79, 96.46, 73.44, 70.94, 97.42 and 71.77% were obtained for the cytoplasm, cytosol, endoplasmic reticulum, exosome, mitochondrion, nucleus, pseudopodium, posterior and ribosome respectively. With an independent test set, accuracies of 65.33, 73.37, 75.86, 72.99, 94.26, 70.91, 65.53, 93.60 and 73.45% were obtained for the respective localizations. The developed approach also achieved higher accuracies than the existing localization prediction tools. Conclusions This study presents a novel computational tool for predicting the multiple localization of mRNAs. Based on the proposed approach, an online prediction server “mLoc-mRNA” is accessible at http://cabgrid.res.in:8080/mlocmrna/ . The developed approach is believed to supplement the existing tools and techniques for the localization prediction of mRNAs.

Published

2021

9. Artificial intelligence-driven reverse vaccinology for Neisseria gonorrhoeae vaccine: Prioritizing epitope-based candidates.

Author

Kant R, Khan MS, Chopra M, and Saluja D

Abstract

Neisseria gonorrhoeae is the causative agent of the sexually transmitted disease gonorrhea. The increasing prevalence of this disease worldwide, the rise of antibiotic-resistant strains, and the difficulties in treatment necessitate the development of a vaccine, highlighting the significance of preventative measures to control and eradicate the infection. Currently, there is no widely available vaccine, partly due to the bacterium's ability to evade natural immunity and the limited research investment in gonorrhea compared to other diseases. To identify distinct vaccine candidates, we chose to focus on the uncharacterized, hypothetical proteins (HPs) as our initial approach. Using the in silico method, we first carried out a comprehensive assessment of hypothetical proteins of Neisseria gonorrhoeae, encompassing assessments of physicochemical properties, cellular localization, secretary pathways, transmembrane regions, antigenicity, toxicity, and prediction of B-cell and T-cell epitopes, among other analyses. Detailed analysis of all HPs resulted in the functional annotation of twenty proteins with a great degree of confidence. Further, using the immuno-informatics approach, the prediction pipeline identified one CD8 + restricted T-cell epitope, seven linear B-cell epitopes, and seven conformational B-cell epitopes as putative epitope-based peptide vaccine candidates which certainly require further validation in laboratory settings. The study accentuates the promise of functional annotation and immuno-informatics in the systematic design of epitope-based peptide vaccines targeting Neisseria gonorrhoeae ., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Kant, Khan, Chopra and Saluja.)

Published

2024

10. LncRBase V.2: an updated resource for multispecies lncRNAs and ClinicLSNP hosting genetic variants in lncRNAs for cancer patients.

Author

Das, Troyee, Deb, Aritra, Parida, Sibun, Mondal, Sudip, Khatua, Sunirmal, and Ghosh, Zhumur

Subjects

NON-coding RNA, CANCER patients, GENOMES, RNA sequencing, CERVICAL cancer

Abstract

The recent discovery of long non-coding RNA as a regulatory molecule in the cellular system has altered the concept of the functional aptitude of the genome. Since our publication of the first version of LncRBase in 2014, there has been an enormous increase in the number of annotated lncRNAs of multiple species other than Human and Mouse. LncRBase V.2 hosts information of 549,648 lncRNAs corresponding to six additional species besides Human and Mouse, viz. Rat, Fruitfly, Zebrafish, Chicken, Cow and C.elegans. It provides additional distinct features such as (i) Transcription Factor Binding Site (TFBS) in the lncRNA promoter region, (ii) sub-cellular localization pattern of lncRNAs (iii) lnc-pri-miRNAs (iv) Possible small open reading frames (sORFs) within lncRNA. (v) Manually curated information of interacting target molecules and disease association of lncRNA genes (vi) Distribution of lncRNAs across multiple tissues of all species. Moreover, we have hosted ClinicLSNP within LncRBase V.2. ClinicLSNP has a comprehensive catalogue of lncRNA variants present within breast, ovarian, and cervical cancer inferred from 561 RNA-Seq data corresponding to these cancers. Further, we have checked whether these lncRNA variants overlap with (i)Repeat elements,(ii)CGI, (iii)TFBS within lncRNA loci (iv)SNP localization in trait-associated Linkage Disequilibrium(LD) region, (v)predicted the potentially pathogenic variants and (vi)effect of SNP on lncRNA secondary structure. Overall, LncRBaseV.2 is a user-friendly database to survey, search and retrieve information about multi-species lncRNAs. Further, ClinicLSNP will serve as a useful resource for cancer specific lncRNA variants and their related information. The database is freely accessible and available at . [ABSTRACT FROM AUTHOR]

Published

2021

11. mLoc-mRNA: predicting multiple sub-cellular localization of mRNAs using random forest algorithm coupled with feature selection via elastic net.

Author

Meher, Prabina Kumar, Rai, Anil, and Rao, Atmakuri Ramakrishna

Subjects

*RANDOM forest algorithms, *FEATURE selection, *MACHINE learning, *MESSENGER RNA, *IN situ hybridization, *ENDOPLASMIC reticulum

Abstract

Background: Localization of messenger RNAs (mRNAs) plays a crucial role in the growth and development of cells. Particularly, it plays a major role in regulating spatio-temporal gene expression. The in situ hybridization is a promising experimental technique used to determine the localization of mRNAs but it is costly and laborious. It is also a known fact that a single mRNA can be present in more than one location, whereas the existing computational tools are capable of predicting only a single location for such mRNAs. Thus, the development of high-end computational tool is required for reliable and timely prediction of multiple subcellular locations of mRNAs. Hence, we develop the present computational model to predict the multiple localizations of mRNAs. Results: The mRNA sequences from 9 different localizations were considered. Each sequence was first transformed to a numeric feature vector of size 5460, based on the k-mer features of sizes 1–6. Out of 5460 k-mer features, 1812 important features were selected by the Elastic Net statistical model. The Random Forest supervised learning algorithm was then employed for predicting the localizations with the selected features. Five-fold cross-validation accuracies of 70.87, 68.32, 68.36, 68.79, 96.46, 73.44, 70.94, 97.42 and 71.77% were obtained for the cytoplasm, cytosol, endoplasmic reticulum, exosome, mitochondrion, nucleus, pseudopodium, posterior and ribosome respectively. With an independent test set, accuracies of 65.33, 73.37, 75.86, 72.99, 94.26, 70.91, 65.53, 93.60 and 73.45% were obtained for the respective localizations. The developed approach also achieved higher accuracies than the existing localization prediction tools. Conclusions: This study presents a novel computational tool for predicting the multiple localization of mRNAs. Based on the proposed approach, an online prediction server "mLoc-mRNA" is accessible at http://cabgrid.res.in:8080/mlocmrna/. The developed approach is believed to supplement the existing tools and techniques for the localization prediction of mRNAs. [ABSTRACT FROM AUTHOR]

Published

2021

12. Characterization and functional biology of the soybean aleurone layer

Author

Monica A. Schmidt and Eliot M. Herman

Subjects

Aleurone, Transient expression, Soybean, Seed-specific, Sub-cellular localization, Botany, QK1-989

Abstract

Abstract Background Soybean is a globally important oil seed crop. Both the high protein and oil content of soybean seeds make this crop a lucrative commodity. As in higher eukaryotic species with available genomes, the functional annotation of most of soybean’s genes still remains to be investigated. A major hurdle in the functional genomics of soybean is a rapid method to test gene constructs before embarking on stable transformation experiments. Results In this paper we describe the morphology and composition of the persistent single-cell aleurone layer that derives from the endosperm of developing soybean seeds. Its composition compared to cotyledonary tissue indicates the aleurone layer plays a role in both abiotic and biotic stress. The potential utility as the aleurone layer as a transient expression system in soybean was shown. As a near transparent single-cell layer it can be used as a transient expression system to study transgene expression and inter- and intra-cellular targeting as it is amenable to microscopic techniques. Conclusion The transparent single cell aleurone layer was shown to be compositionally comparable to cotyledonary tissue in soybean with an enrichment in oxidative response proteins and shown to be a potential transient expression platform.

Published

2018

13. PLoc-Euk: An Ensemble Classifier for Prediction of Eukaryotic Protein Sub-cellular Localization

Author

Mitra, Rajkamal, Chatterjee, Piyali, Basu, Subhadip, Kundu, Mahantapas, Nasipuri, Mita, Kacprzyk, Janusz, Series editor, Pal, Nikhil R., Advisory editor, Bello Perez, Rafael, Advisory editor, Corchado, Emilio S., Advisory editor, Hagras, Hani, Advisory editor, Kóczy, László T., Advisory editor, Kreinovich, Vladik, Advisory editor, Lin, Chin-Teng, Advisory editor, Lu, Jie, Advisory editor, Melin, Patricia, Advisory editor, Nedjah, Nadia, Advisory editor, Nguyen, Ngoc Thanh, Advisory editor, Wang, Jun, Advisory editor, Satapathy, Suresh Chandra, editor, Bhateja, Vikrant, editor, Udgata, Siba K., editor, and Pattnaik, Prasant Kumar, editor

Published

2017

14. Isolation and Characterization of Nuclear Localized Abiotic Stress Responsive Cold Regulated Gene 413 (SsCor413) from Saccharum spontaneum.

Author

Dharshini, S., Manoj, V. M., Suresha, G. S., Narayan, J. Ashwin, Padmanabhan, T. S. Sarath, Kumar, Ravinder, Meena, Mintu Ram, Manickavasagam, M., Ram, Bakshi, and Appunu, C.

Subjects

*ABIOTIC stress, *SUGARCANE, *SACCHARUM, *COLD (Temperature), *ISOELECTRIC point, *GENE expression

Abstract

Winter survival develops efficient tolerance mechanisms in plants by regulating cold-responsive and cold-regulated genes at the transcriptional level. Hence, an insight into the expression would provide the molecular function of these cold responsive genes. In this study, an uncharacterized gene encoding a cold-regulated (Cor413) protein identified from Saccharum spontaneum (wild relative species of sugarcane) low-temperature transcriptome with environmental adaptability is isolated and characterized. The full-length coding region possesses an open reading frame of 642 bp, which encodes a putative polypeptide of 213 amino acids of molecular weight 25.6 kDa and an isoelectric point (Pi) of 9.69. The SsCor413 sequence showed a high similarity to monocot Cor413 proteins comprising a WCOR413 domain. Bioinformatics analysis revealed that Cor413 protein has multispanning transmembrane helices along with highly conserved phosphorylation sites. String analysis suggested that SsCor413 is grouped with LEA and Rab proteins that are involved in freezing tolerance. Gene ontology analysis assigned the protein to terms such as "plasma membrane," "cold acclimation," and "response to cold." Sub-cellular localization experiments of sugarcane callus and onion epidermal cells indicated the nuclear localized expression. Quantitative gene expression analysis indicated that the SsCor413 gene is up-regulated in leaf and root tissues of S. spontaneum under low temperature, salinity, and water deficit stress conditions. These results highlight the potential role of SsCor413 in abiotic stress tolerance, and this gene could be a new candidate for combating multiple stresses in sugarcane. [ABSTRACT FROM AUTHOR]

Published

2020

15. A Genetic Toolbox for the New Model Cyanobacterium Cyanothece PCC 7425: A Case Study for the Photosynthetic Production of Limonene

Author

Célia Chenebault, Encarnación Diaz-Santos, Xavier Kammerscheit, Sigrid Görgen, Cristian Ilioaia, Simona Streckaite, Andrew Gall, Bruno Robert, Elodie Marcon, David-Alexandre Buisson, Karim Benzerara, Jean-François Sassi, Corinne Cassier-Chauvat, and Franck Chauvat

Subjects

conjugation, RSF1010 derivative plasmids, promoter probe vector, temperature-controlled expression vector, sub-cellular localization, growth on urea, Microbiology, QR1-502

Abstract

Cyanobacteria, the largest phylum of prokaryotes, perform oxygenic photosynthesis and are regarded as the ancestors of the plant chloroplast and the purveyors of the oxygen and biomass that shaped the biosphere. Nowadays, cyanobacteria are attracting a growing interest in being able to use solar energy, H2O, CO2 and minerals to produce biotechnologically interesting chemicals. This often requires the introduction and expression of heterologous genes encoding the enzymes that are not present in natural cyanobacteria. However, only a handful of model strains with a well-established genetic system are being studied so far, leaving the vast biodiversity of cyanobacteria poorly understood and exploited. In this study, we focused on the robust unicellular cyanobacterium Cyanothece PCC 7425 that has many interesting attributes, such as large cell size; capacity to fix atmospheric nitrogen (under anaerobiosis) and to grow not only on nitrate but also on urea (a frequent pollutant) as the sole nitrogen source; capacity to form CO2-sequestrating intracellular calcium carbonate granules and to produce various biotechnologically interesting products. We demonstrate for the first time that RSF1010-derived plasmid vectors can be used for promoter analysis, as well as constitutive or temperature-controlled overproduction of proteins and analysis of their sub-cellular localization in Cyanothece PCC 7425. These findings are important because no gene manipulation system had been developed for Cyanothece PCC 7425, yet, handicapping its potential to serve as a model host. Furthermore, using this toolbox, we engineered Cyanothece PCC 7425 to produce the high-value terpene, limonene which has applications in biofuels, bioplastics, cosmetics, food and pharmaceutical industries. This is the first report of the engineering of a Cyanothece strain for the production of a chemical and the first demonstration that terpene can be produced by an engineered cyanobacterium growing on urea as the sole nitrogen source.

Published

2020

16. A Genetic Toolbox for the New Model Cyanobacterium Cyanothece PCC 7425: A Case Study for the Photosynthetic Production of Limonene.

Author

Chenebault, Célia, Diaz-Santos, Encarnación, Kammerscheit, Xavier, Görgen, Sigrid, Ilioaia, Cristian, Streckaite, Simona, Gall, Andrew, Robert, Bruno, Marcon, Elodie, Buisson, David-Alexandre, Benzerara, Karim, Sassi, Jean-François, Cassier-Chauvat, Corinne, and Chauvat, Franck

Subjects

LIMONENE, ATMOSPHERIC nitrogen, ENERGY consumption, INTRACELLULAR calcium, PROTEIN analysis, CYANOBACTERIAL toxins, CYANOBACTERIA, NITRATE reductase

Abstract

Cyanobacteria, the largest phylum of prokaryotes, perform oxygenic photosynthesis and are regarded as the ancestors of the plant chloroplast and the purveyors of the oxygen and biomass that shaped the biosphere. Nowadays, cyanobacteria are attracting a growing interest in being able to use solar energy, H2O, CO2 and minerals to produce biotechnologically interesting chemicals. This often requires the introduction and expression of heterologous genes encoding the enzymes that are not present in natural cyanobacteria. However, only a handful of model strains with a well-established genetic system are being studied so far, leaving the vast biodiversity of cyanobacteria poorly understood and exploited. In this study, we focused on the robust unicellular cyanobacterium Cyanothece PCC 7425 that has many interesting attributes, such as large cell size; capacity to fix atmospheric nitrogen (under anaerobiosis) and to grow not only on nitrate but also on urea (a frequent pollutant) as the sole nitrogen source; capacity to form CO2-sequestrating intracellular calcium carbonate granules and to produce various biotechnologically interesting products. We demonstrate for the first time that RSF1010-derived plasmid vectors can be used for promoter analysis, as well as constitutive or temperature-controlled overproduction of proteins and analysis of their sub-cellular localization in Cyanothece PCC 7425. These findings are important because no gene manipulation system had been developed for Cyanothece PCC 7425, yet, handicapping its potential to serve as a model host. Furthermore, using this toolbox, we engineered Cyanothece PCC 7425 to produce the high-value terpene, limonene which has applications in biofuels, bioplastics, cosmetics, food and pharmaceutical industries. This is the first report of the engineering of a Cyanothece strain for the production of a chemical and the first demonstration that terpene can be produced by an engineered cyanobacterium growing on urea as the sole nitrogen source. [ABSTRACT FROM AUTHOR]

Published

2020

17. The Phylogeny and Functional Characterization of Peanut Acyl-ACP Thioesterases.

Author

Peng, Zhenying, Zhang, Hui, Tian, Haiying, Shan, Lei, Zhang, Zhimeng, Ding, Hong, Gao, Wenwei, and Li, Xinguo

Subjects

ACYL carrier protein, PHYLOGENY, INTRONS, CHLOROPLAST membranes, GENETIC overexpression, ARABIDOPSIS thaliana

Abstract

Fatty acyl-acyl thioesterases (FATs), which hydrolyze the thioester bond linking acyl chains to an acyl carrier protein, thereby terminating their elongation, contribute significantly to the fatty acid (FA) content and composition of seed storage lipids. The peanut (Arachis hypogaea L.) genome was found to harbor 21 FAT (AhFAT) genes, distributed over 12 of the 20 chromosomes. The length of their predicted translation products varied from 74 to 415 residues, and all but one included the 1–2 Acyl-ACP_TE conserved domains. All of the coding sequences were interrupted by at least one intron, with the exon number ranging from two to 12, and five of the genes were liable to alternative splicing. When the RNA-Seq platform was used to assess the transcriptional behavior of the 21 AhFAT genes, transcription of only 13 was detectable in samples of root, leaves, and developing seed; among these, six were transcribed throughout the plant, three were root-specific and one was leaf-specific. A detailed analysis of a pair of homologous AhFATs showed that the coding region of each was split into six exons and that both were transcribed in all of the plant organs surveyed (although the intensity of their transcription was not the same in immature seed). The product of both genes was deposited in the chloroplast outer membrane. The constitutive expression of these genes in either yeast or Arabidopsis thaliana increased the FA content, especially that of saturated FAs. In peanut genome, 21 AhFAT genes were found and two of them were transformed into yeast and Arabidopsis for function identification. Results showed that overexpression of these two genes could increase the FA content, especially the saturated FAs content. [ABSTRACT FROM AUTHOR]

Published

2020

18. The Family of Peanut Fatty Acid Desaturase Genes and a Functional Analysis of Four ω-3 AhFAD3 Members.

Author

Peng, Zhenying, Ruan, Jian, Tian, Haiying, Shan, Lei, Meng, Jingjing, Guo, Feng, Zhang, Zhimeng, Ding, Hong, Wan, Shubo, and Li, Xinguo

Subjects

*FATTY acid desaturase, *FUNCTIONAL analysis, *PEANUTS, *CARRIER proteins, *PEANUT oil, *GENES

Abstract

The synthesis of α-linolenic acid (ALA) requires the activity of ω-3 fatty acid desaturases (ω-3 FADs). The quality of peanut oil would be much improved if the content of ALA could be increased. A scan of the peanut genome revealed that it harbored 36 FAD genes, mapping to 16 of the species' 20 chromosomes. A phylogenetic analysis concluded that these genes belonged to six sub-families, namely stearoyl-acyl-acyl carrier protein desaturases (SAD), FAD2, FAD3, FAD4/5, FAD6 and FAD7/8. Of these, FAD3 and FAD7/8 encoded ω-3 FADs, while genes belonging to the other four sub-families encoded ω-6 FADs. Based on RNA-Seq data, each of the 36 FAD genes was shown to be transcribed in non-stressed plants, but there was variation between them with respect to which organs they were transcribed in. Four ω-3 AhFAD3 genes were functionally characterized; when expressed in Arabidopsis thaliana protoplasts, each was localized mainly in the endoplasmic reticulum, while within peanut, the genes were more strongly transcribed in the developing seed than in either the root or the leaf. When constitutively expressed in Arabidopsis thaliana, both the total fatty acid content of the seed and the relative contribution of ALA were increased. The transgenic seedlings also exhibited an improved level of survival when challenged by salinity stress. [ABSTRACT FROM AUTHOR]

Published

2020

19. Study of subcellular localization of Glycine max γ-tocopherol methyl transferase isoforms in N. benthamiana.

Author

Kumari, Khushboo, Rai, Monika Prakash, Bansal, Navita, Prashat, G. Rama, Kumari, Sweta, Srivathsa, Rohini, Dahuja, Anil, Sachdev, Archana, Praveen, Shelly, and Vinutha, T.

Abstract

Gamma-tocopherol methyltransferase (γ-TMT) converts γ-toc to α-toc—the rate limiting step in toc biosynthesis. Sequencing results revealed that the coding regions of γ-TMT1 and γ-TMT3 were strongly similar to each other (93% at amino acid level). Based on the differences in the N-terminal amino acids, Glycine max-γ-TMT proteins are categorized into three isoforms: γ-TMT1, 2 and 3. In silico structural analysis revealed the presence of chloroplast transit peptide (cTP) in γ-TMT1 and γ-TMT3 protein. However, other properties of transit peptide like presence of hydrophobic amino acids at the first three positions of N-terminal end and lower level of acidic amino acids were revealed only in γ-TMT3 protein. Subcellular localization of GFP fused γ-TMT1 and γ-TMT3 under 35S promoter was studied in Nicotiana benthamiana using confocal microscopy. Results showed that γ-TMT1 was found in the cytosol and γ-TMT3 was found to be localized both in cytosol and chloroplast. Further the presence γ-TMT3 in chloroplast was validated by quantifying α-tocopherol through UPLC. Thus the present study of cytosolic localization of the both γ-TMT1 and γ-TMT3 proteins and chloroplastic localization of γ-TMT3 will help to reveal the importance of γ-TMT encoded α-toc in protecting both chloroplastic and cell membrane from plant oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2020

20. OrganelX web server for sub-peroxisomal and sub-mitochondrial protein localization and peroxisomal target signal detection

Author

Anteghini, Marco, Haja, Asmaa, Martins dos Santos, Vitor A.P., Schomaker, Lambert, Saccenti, Edoardo, Anteghini, Marco, Haja, Asmaa, Martins dos Santos, Vitor A.P., Schomaker, Lambert, and Saccenti, Edoardo

Abstract

We present the OrganelX e-Science Web Server that provides a user-friendly implementation of the In-Pero and In-Mito classifiers for sub-peroxisomal and sub-mitochondrial localization of peroxisomal and mitochondrial proteins and the Is-PTS1 algorithm for detecting and validating potential peroxisomal proteins carrying a PTS1 signal sequence. The OrganelX e-Science Web Server is available at https://organelx.hpc.rug.nl/fasta/.

Published

2023

21. Protein S-nitrosylation under abiotic stress: Role and mechanism.

Author

Wang, Tong, Hou, Xuemei, Wei, Lijuan, Deng, Yuzheng, Zhao, Zongxi, Liang, Chen, and Liao, Weibiao

Subjects

*ABIOTIC stress, *PROTEIN S, *PROTEIN conformation, *CROP growth, *PROTEINS, *DROUGHT tolerance

Abstract

Abiotic stress is one of the main threats affecting crop growth and production. Nitric oxide (NO), an important signaling molecule involved in wide range of plant growth and development as well as in response to abiotic stress. NO can exert its biological functions through protein S -nitrosylation, a redox-based posttranslational modification by covalently adding NO moiety to a reactive cysteine thiol of a target protein to form an S -nitrosothiol (SNO). Protein S -nitrosylation is an evolutionarily conserved mechanism regulating multiple aspects of cellular signaling in plant. Recently, emerging evidence have elucidated protein S -nitrosylation as a modulator of plant in responses to abiotic stress, including salt stress, extreme temperature stress, light stress, heavy metal and drought stress. In addition, significant mechanism has been made in functional characterization of protein S -nitrosylated candidates, such as changing protein conformation, and the subcellular localization of proteins, regulating protein activity and influencing protein interactions. In this study, we updated the data related to protein S -nitrosylation in plants in response to adversity and gained a deeper understanding of the functional changes of target proteins after protein S -nitrosylation. • Protein S -nitrosylation plays a critical role in plant response to abiotic stress. • Protein S -nitrosylation regulates enzyme activity under abiotic stress. • S -nitrosylation affect protein function under abiotic stress. • S -nitrosylation changes protein subcellular localization and interactions under stress. [ABSTRACT FROM AUTHOR]

Published

2024

22. Distinct Distribution Patterns of Potassium Channel Sub-Units in Somato-Dendritic Compartments of Neurons of the Medial Superior Olive

Author

Alisha L. Nabel, Alexander R. Callan, Sarah A. Gleiss, Nikolaos Kladisios, Christian Leibold, and Felix Felmy

Subjects

medial superior olive, potassium channel, potassium currents, sub-cellular localization, postsynaptic integration, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Coincidence detector neurons of the medial superior olive (MSO) are sensitive to interaural time differences in the range of a few tens of microseconds. The biophysical basis for this remarkable acuity is a short integration time constant of the membrane, which is achieved by large low voltage-activated potassium and hyperpolarization-activated inward cation conductances. Additional temporal precision is thought to be achieved through a sub-cellular distribution of low voltage-activated potassium channel expression biased to the soma. To evaluate the contribution of potassium channels, we investigated the presence and sub-cellular distribution profile of seven potassium channel sub-units in adult MSO neurons of gerbils. We find that low- and high voltage-activated potassium channels are present with distinct sub-cellular distributions. Overall, low voltage-activated potassium channels appear to be biased to the soma while high voltage-activated potassium channels are more evenly distributed and show a clear expression at distal dendrites. Additionally, low voltage-activated potassium channel sub-units co-localize with glycinergic inputs while HCN1 channels co-localize more with high voltage-activated potassium channels. Functionally, high voltage-activated potassium currents are already active at low voltages near the resting potential. We describe a possible role of high voltage-activated potassium channels in modulating EPSPs in a computational model and contributing to setting the integration time window of coincidental inputs. Our data shows that MSO neurons express a large set of different potassium channels with distinct functional relevance.

Published

2019

23. Distinct Distribution Patterns of Potassium Channel Sub-Units in Somato-Dendritic Compartments of Neurons of the Medial Superior Olive.

Author

Nabel, Alisha L., Callan, Alexander R., Gleiss, Sarah A., Kladisios, Nikolaos, Leibold, Christian, and Felmy, Felix

Subjects

POTASSIUM channels, OLIVARY nucleus, NEURONS, HYPERPOLARIZATION (Cytology), 5-Enolpyruvylshikimate-3-phosphate synthase

Abstract

Coincidence detector neurons of the medial superior olive (MSO) are sensitive to interaural time differences in the range of a few tens of microseconds. The biophysical basis for this remarkable acuity is a short integration time constant of the membrane, which is achieved by large low voltage-activated potassium and hyperpolarization-activated inward cation conductances. Additional temporal precision is thought to be achieved through a sub-cellular distribution of low voltage-activated potassium channel expression biased to the soma. To evaluate the contribution of potassium channels, we investigated the presence and sub-cellular distribution profile of seven potassium channel sub-units in adult MSO neurons of gerbils. We find that low- and high voltage-activated potassium channels are present with distinct sub-cellular distributions. Overall, low voltage-activated potassium channels appear to be biased to the soma while high voltage-activated potassium channels are more evenly distributed and show a clear expression at distal dendrites. Additionally, low voltage-activated potassium channel sub-units co-localize with glycinergic inputs while HCN1 channels co-localize more with high voltage-activated potassium channels. Functionally, high voltage-activated potassium currents are already active at low voltages near the resting potential. We describe a possible role of high voltage-activated potassium channels in modulating EPSPs in a computational model and contributing to setting the integration time window of coincidental inputs. Our data shows that MSO neurons express a large set of different potassium channels with distinct functional relevance. [ABSTRACT FROM AUTHOR]

Published

2019

24. Characterization and functional biology of the soybean aleurone layer.

Author

Schmidt, Monica A. and Herman, Eliot M.

Subjects

*SOYBEAN, *ALEURONE layer, *OILSEEDS, *FUNCTIONAL genomics, *ENDOSPERM, *MORPHOLOGY

Abstract

Background: Soybean is a globally important oil seed crop. Both the high protein and oil content of soybean seeds make this crop a lucrative commodity. As in higher eukaryotic species with available genomes, the functional annotation of most of soybean’s genes still remains to be investigated. A major hurdle in the functional genomics of soybean is a rapid method to test gene constructs before embarking on stable transformation experiments. Results: In this paper we describe the morphology and composition of the persistent single-cell aleurone layer that derives from the endosperm of developing soybean seeds. Its composition compared to cotyledonary tissue indicates the aleurone layer plays a role in both abiotic and biotic stress. The potential utility as the aleurone layer as a transient expression system in soybean was shown. As a near transparent single-cell layer it can be used as a transient expression system to study transgene expression and inter- and intra-cellular targeting as it is amenable to microscopic techniques. Conclusion: The transparent single cell aleurone layer was shown to be compositionally comparable to cotyledonary tissue in soybean with an enrichment in oxidative response proteins and shown to be a potential transient expression platform. [ABSTRACT FROM AUTHOR]

Published

2018

25. Sub-cellular localization of suppressor proteins of tomato leaf curl New Delhi virus

Author

Sarkar, Mehulee, Aggarwal, Shilpi, Mukherjee, Sunil Kumar, Mandal, Bikash, and Roy, Anirban

Published

2021

26. Role of Glucokinase in the Subcellular Localization of Glucokinase Regulatory Protein

Author

Ling Jin, Tingting Guo, Zhixin Li, Zhen Lei, Hui Li, Yiqing Mao, Xi Wang, Na Zhou, Yizhuang Zhang, Ruobi Hu, Xuehui Zhang, Gang Niu, David M. Irwin, and Huanran Tan

Subjects

protein–protein interaction, glucokinase regulatory protein, glucokinase, sub-cellular localization, glucose metabolism, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Glucokinase (GCK) is the rate-limiting enzyme of liver glucose metabolism. Through protein-protein interactions, glucokinase regulatory protein (GCKR) post-transcriptionally regulates GCK function in the liver, and causes its nuclear localization. However the role of GCK in regulating GCKR localization is unknown. In the present study, using in vitro and in vivo models, we examined the levels of GCK and GCKR, and their subcellular localization. We found that total cellular levels of GCKR did not vary in the in vivo models, but its subcellular localization did. In animals with normal levels of GCK, GCKR is mainly localized to the nuclei of hepatocytes. In seven-day old rats and liver-specific Gck gene knockout mice (animals that lack or have reduced levels of GCK protein), GCKR was found primarily in the cytoplasm. The interaction of GCK with GCKR was further examined using in vitro models where we varied the levels of GCK and GCKR. Varying the level of GCK protein had no effect on total cellular GCKR protein levels. Taken together, our results indicate that GCK is important for the localization of GCKR to the nucleus and raises the possibility that GCKR may have functions in addition to those regulating GCK activity in the cytoplasm.

Published

2015

27. Various physicochemical and surface properties controlling the bioactivity of cerium oxide nanoparticles.

Author

Chen, Bing-Huei and Stephen Inbaraj, Baskaran

Subjects

*CERIUM oxides, *NANOPARTICLES, *OXIDATIVE stress, *NEURODEGENERATION, *OXIDATION-reduction reaction

Abstract

Amidst numerous emerging nanoparticles, cerium oxide nanoparticles (CNPs) possess fascinating pharmacological potential as they can be used as a therapeutic for various oxidative stress-associated chronic diseases such as cancer, inflammation and neurodegeneration due to unique redox cycling between Ce3+ and Ce4+ oxidation states on their surface. Lattice defects generated by the formation of Ce3+ ions and compensation by oxygen vacancies on CNPs surface has led to switching between CeO2 and CeO2-x during redox reactions making CNPs a lucrative catalytic nanoparticle capable of mimicking key natural antioxidant enzymes such as superoxide dismutase and catalase. Eventually, most of the reactive oxygen species and nitrogen species in biological system are scavenged by CNPs via an auto-regenerative mechanism in which a minimum dose can exhibit catalytic activity for a longer duration. Due to the controversial outcomes on CNPs toxicity, considerable attention has recently been drawn towards establishing relationships between the physicochemical properties of CNPs obtained by different synthesis methods and biological effects ranging from toxicity to therapeutics. Unlike non-redox active nanoparticles, variations in physicochemical properties and the surface properties of CNPs obtained from different synthesis methods can significantly affect their biological activity (inactive, antioxidant, or pro-oxidant). Moreover, these properties can influence the biological identity, cellular interactions, cellular uptake, biodistribution, and therapeutic efficiency. This review aims to highlight the critical role of various physicochemical and the surface properties of CNPs controlling their biological activity based on 165 cited references. [ABSTRACT FROM AUTHOR]

Published

2018

28. Isolation and functional characterization of hydroxycinnamoyltransferases from the liverworts Plagiochasma appendiculatum and Marchantia paleacea.

Author

Wu, Yi-Feng, Zhao, Yu, Liu, Xin-Yan, Gao, Shuai, Cheng, Ai-Xia, and Lou, Hong-Xiang

Subjects

*COMPOSITION of liverworts, *TRANSFERASES, *LIGNINS, *MARCHANTIA, *NUCLEOCYTOPLASMIC interactions

Abstract

Hydroxycinnamoyl-CoA shikimate/quinate hydroxycinnamoyl transferase (HCT, EC: 2.3.1.133) is a key metabolic entry point for the synthesis of monolignols in vascular plants; however, little is known about HCT in liverworts. Here, the isolation and characterization of HCTs encoded by the two liverwort species, Plagiochasma appendiculatum and Marchantia paleacea , are described. The sequences of the two enzymes harbor features typical of BAHD family members, except for the presence of a stretch of >100 residues that are not represented in higher plant HCTs. When truncated versions of both genes, which were constructed to clarify the significance of these extra residues, were investigated, it became apparent that the full-length and the truncated gene products shared similar catalytic activity and recognized the same substrates in vitro . They also functioned equivalently in vivo either when transiently expressed in tobacco to cause a higher total production of CGA (5-CQA) and 4-CQA or stably expressed in liverworts to accumulate the lignin-like contents. A structural model of MpHCT suggests that its active site bind to its substrate similar to that of Arabidopsis thaliana HCT. While truncated forms of HCT were deposited in the nucleocytoplasm, the full-length versions occurred exclusively in the cytoplasm. The conclusion is that liverworts produce bona fide HCTs that represent a point of departure in studying the evolution of lignin synthesis in plants. [ABSTRACT FROM AUTHOR]

Published

2018

29. Level of hydrogen peroxide affects expression and sub-cellular localization of Pax6.

Author

Shukla, Sachin and Mishra, Rajnikant

Abstract

The Pax6 is a multifunctional pairedbox and homeobox containing transcription factor which is involved in several functions of brain, eyes, and pancreas. It regulates expression of genes involved in cell proliferation, differentiation, inflammation, oxidative stress management, and neuropathy. Dynamic changes in the sub-cellular localization of Pax6 are proposed to regulate its activity, however, the underlying mechanism remains poorly understood. The oxidative stress mediated changes were studied in sub-cellular localization of Pax6 in cultured cells derived from the eye (cornea) and pancreas. The impact of induced oxidative stress was investigated on reactive oxygen species scavenger molecules, Superoxide dismutase1 (SOD1) and Catalase, and a critical cell signalling molecule Transforming growth factor-beta (TGF-β1). The cells were treated with three different concentrations of H2O2, viz., 0.3, 1.5, and 3.0 mM. The cell viability was analysed through Trypan blue dye exclusion assay. The localization of Pax6 was observed by immunofluorescence labeling, and alterations in levels of Pax6, SOD1, Catalase, and TGF-β1 were investigated by semi-quantitative RT-PCR. Nucleo-cytoplasmic shuttling of Pax6 was observed in cells of corneal epithelial (SIRC) and pancreatic origins (MIA-PaCa2). The percentage distribution of Pax6 in nuclear and cytoplasmic compartments of SIRC and MIA-PaCa2 cells was analyzed through ImageJ software. Level of hydrogen peroxide affects expression and sub-cellular localization of Pax6. Expression of Pax6 and TGF-β1 are directly associated with changes in sub-cellular localization of Pax6 and modulation in expression of Catalase. This may be the result of a cellular protective mechanism against peroxide-dependent cellular stress. [ABSTRACT FROM AUTHOR]

Published

2018

30. Comprehensive assessment of the genes involved in withanolide biosynthesis from Withania somnifera: chemotype-specific and elicitor-responsive expression.

Author

Agarwal, Aditya, Gupta, Parul, Singh, Deeksha, Dhar, Yogeshwar, Chandra, Deepak, and Trivedi, Prabodh

Subjects

*WITHANOLIDES, *BIOSYNTHESIS, *WITHANIA somnifera, *GENE expression, *MEDICINAL plants

Abstract

Withania somnifera (L.) Dunal (Family, Solanaceae), is among the most valuable medicinal plants used in Ayurveda owing to its rich reservoir of pharmaceutically active secondary metabolites known as withanolides. Withanolides are C-steroidal lactones having a triterpenoidal metabolic origin synthesised via mevalonate (MVA) pathway and methyl-D-erythritol-4-phosphate (MEP) pathway involving metabolic intermediacy of 24-methylene (C-terpenoid) cholesterol. Phytochemical studies suggest differences in the content and/or nature of withanolides in different tissues of different chemotypes. Though development of genomic resources has provided information about putative genes encoding enzymes for biosynthesis of intermediate steps of terpenoid backbone, not much is known about their regulation and response to elicitation. In this study, we generated detailed molecular information about genes catalysing key regulatory steps of withanolide biosynthetic pathway. The full-length sequences of genes encoding enzymes for intermediate steps of terpenoid backbone biosynthesis and their paralogs have been characterized for their functional and structural properties as well as phylogeny using bioinformatics approach. The expression analysis suggests that these genes are differentially expressed in different tissues (with maximal expression in young leaf), chemotypes and in response to salicylic acid (SA) and methyl jasmonate (MJ) treatments. Sub-cellular localization studies suggest that both paralogs of sterol ∆-7 reductase (WsDWF5-1 and WsDWF5-2) are localized in the endoplasmic reticulum (ER) thus supporting their indispensible role in withanolide biosynthesis. Comprehensive information developed, in this study, will lead to elucidation of chemotype- as well as tissue-specific withanolide biosynthesis and development of new tools for functional genomics in this important medicinal plant. [ABSTRACT FROM AUTHOR]

Published

2017

31. Isolation and Functional Analysis of the bZIP Transcription Factor Gene TaABP1 from a Chinese Wheat Landrace

Author

Xin-you CAO, Ming CHEN, Zhao-shi XU, Yao-feng CHEN, Lian-cheng LI, Yue-hua YU, Yang-na LIU, and You-zhi MA

Subjects

wheat, expression pattern, stress tolerance, sub-cellular localization, transcriptional activation, Agriculture (General), S1-972

Abstract

In plants, basic leucine zipper (bZIP) transcription factors play important roles in regulatory processes, including stress response, pathogenic defense and light response as well as organ and tissue differentiation. Chinese wheat landrace Pingyaoxiaobaimai (PYXBM), an original parent of drought tolerant wheat varieties grown in northern China, is significantly tolerant to abiotic stresses such as drought, cold and nutrient deficiencies. In order to isolate key stress-responsive genes and then improve stress tolerances of conventional varieties, a bZIP transcription factor gene was isolated from a cDNA library of drought-treated PYXBM using the in situ plaque hybridization method, and was designated as Triticum aestivum L. abscisic acid (ABA)-responsive element binding protein 1 (TaABP1). It encodes 372 amino acids, and contains three conserved domains (C1-C3) in the N terminal and a bZIP domain in the C terminal which is a typical protein structure for the group member of bZIP family. Transcriptional activation analysis showed that TaABP1 activated the expression of downstream reporter genes in yeast without ABA application. TaABP1 protein fused with green fluorescent protein (GFP) demonstrated that the localization of TaABP1 protein is in the nucleus. Expression pattern assays indicated that TaABP1 was strongly induced by ABA, high salt, low temperature and drought, and its expression was stronger in stems and leaves than in the roots of wheat. Furthermore, overexpression of TaABP1 in tobacco showed significant improvement of drought tolerance. Data suggested that TaABP1 may be a good candidate gene for improving stress tolerance of wheat by genetic transformation and elucidation of the role of this gene will be useful for understanding the mechanism underlying drought tolerance of Chinese wheat landrace PYXBM.

Published

2012

32. Molecular cloning, expression analysis and immune-related functional identification of tumor necrosis factor alpha (TNFα) in Sepiella japonica under bacteria stress.

Author

Liu, Jiaxin, Liu, Yue, Liu, Yongxin, Guo, Xiaoxian, Lü, Zhenming, Zhou, Xu, Liu, Huihui, and Chi, Changfeng

Subjects

*TUMOR necrosis factors, *GENE expression, *MOLECULAR cloning, *VIBRIO parahaemolyticus, *AEROMONAS hydrophila

Abstract

Tumor necrosis factor α (TNFα), a cytokine mainly secreted by active macrophages and monocytes, causes hemorrhagic necrosis of tumor tissues, kills tumor cells, regulates inflammatory responses, and plays a crucial role in innate immunity. In this study, TNFα of Sepiella japonica (named as Sj TNFα) was acquired, whose full-length cDNA was 1206 bp (GenBank accession no. ON357428), containing a 5′ UTR of 185 bp, a 3′ UTR of 137 bp and an open reading frame (ORF) of 1002bp to encode a putative peptide of 333 amino acids for constructing the transmembrane domain and the cytoplasmic TNF domain. Its predicted pI was 8.69 and the theoretical molecular weight was 44.72 KDa. Multiple sequence alignment and phylogenetic analysis showed that Sj TNFα had the highest homology to Octopus sinensis , they fell into a unified branch and further clustered with other animals. Real-time PCR indicated that Sj TNFα was widely expressed in all subject tissues, including spleen, pancreas, gill, heart, brain, optic lobe, liver and intestine, and exhibited the highest in the liver and the lowest in the brain. The relative expression of Sj TNFα varied at the developmental period of juvenile stage, pre-spawning and oviposition in the squid, with the highest in the liver at the juvenile stage and oviposition, and in the optic lobe of pre-spawning. After being infected with Vibrio parahaemolyticus and Aeromonas hydrophila , the expression of Sj TNFα in liver and gill were both upregulated with time, and the highest expression appeared at 24 h and 8 h in liver for different infection, and at 4 h in gill consistently. Cell localization showed that Sj TNFα distributed on membrane of HEK293 cells because it was a type II soluble transmembrane protein. When HEK293 cells were stimulated with LPS of different concentrations, the NF-κB pathway was activated in the nucleus and the corresponding mRNA was transferred through the intracellular signal transduction pathway, resulting in the synthesis and release of TNFα, which made the expression of Sj TNFα was up-regulated obviously. These findings showed that Sj TNFα might play an essential role in the defense of S. japonica against bacteria challenge, which contributed to the understanding of the intrinsic immune signaling pathway of Cephalopoda and the further study of host-pathogen interactions. • A TNFα homolog was identified from Sepiella japonica (Sj TNFα). • Sj TNFα had highly conserved functional domains and located on membrane. • Sj TNFα could be significantly induced in response to bacteria. • There was the link between TNFα and the NF-κB pathway. [ABSTRACT FROM AUTHOR]

Published

2023

33. Regulation of CaMKII signaling in cardiovascular disease

Author

Mariya Yordanova Mollova, Hugo Albert Katus, and Johannes eBacks

Subjects

Heart Failure, CaMKII, post-translational modifications, Enzymatic activity, Sub-cellular localization, Therapeutics. Pharmacology, RM1-950

Abstract

Heart failure (HF) is a major cause of death in the developed countries. (Murray and Lopez, 1996;Koitabashi and Kass, 2012). Adverse cardiac remodeling that precedes heart muscle dysfunction is characterized by a myriad of molecular changes affecting the cardiomyocyte. Among these, alterations in protein kinase pathways play often an important mediator role since they link upstream pathologic stress signaling with downstream regulatory programs and thus affect both the structural and functional integrity of the heart muscle. In the context of cardiac disease, a profound understanding for the overriding mechanisms that regulate protein kinase activity (protein-protein interactions, post-translational modifications, or targeting via anchoring proteins) is crucial for the development of specific and effective pharmacological treatment strategies targeting the failing myocardium.In this review, we focus on several mechanisms of upstream regulation of Ca2+/Calmodulin-dependent kinase II (CaM Kinase II, CaMKII) that play a relevant pathophysiological role in the development and progression of cardiovascular disease; precise targeting of these mechanisms might therefore represent novel and promising tools for prevention and treatment of HF.

Published

2015

34. Arabidopsis COP1-interacting protein 1 is a positive regulator of ABA response.

Author

Ren, Chenxia, Zhu, Xili, Zhang, Pingping, and Gong, Qingqiu

Subjects

*PLANT photomorphogenesis, *ABSCISIC acid, *ARABIDOPSIS proteins, *PHOTOSYNTHESIS, *PLANT physiology, *INSERTION mutation

Abstract

COP1-interacting protein 1 (CIP1, At5g41790) was the first reported interacting protein for CONSTITUTIVE PHOTOMORPHOGENIC 1 (COP1) of Arabidopsis; however its physiological function has remained unknown for two decades. Here we show that CIP1 is a positive regulator of abscisic acid (ABA) response. CIP1 is mainly expressed in the photosynthetic cells and the vascular tissue, and its promoter activity can be induced by osmotic stress and ABA. The CIP1 protein is localized to the plasma membrane. A T-DNA insertion mutant cip1-1 was then characterized. The mutant is sensitive to osmotic stress and has ABA insensitive phenotypes. RNA sequencing showed that cip1-1 has lower levels of gene expression in abiotic stress response compared with the wild-type. Meanwhile, transcript levels of ABA biosynthesis genes are higher in cip1-1 than in the wild-type. These results suggested that CIP1 is positively involved in ABA response. [ABSTRACT FROM AUTHOR]

Published

2016

35. Characterization and sub-cellular localization of GalNAc-binding proteins isolated from human hepatic stellate cells.

Author

Zhong, Yaogang, Zhang, Jing, Yu, Hanjie, Zhang, Jiaxu, Sun, Xiu-Xuan, Chen, Wentian, Bian, Huijie, and Li, Zheng

Subjects

*PROTEIN binding, *KUPFFER cells, *PROTEIN expression, *TRANSFORMING growth factors, *CIRRHOSIS of the liver, *HEPATIC fibrosis

Abstract

Although the expression levels of total GalNAc-binding proteins (GNBPs) were up-regulated significantly in human hepatic stellate cells (HSCs) activated with transforming growth factor-β1(TGF-β1), yet little is known about the precise types, distribution and sub-cellular localization of the GNBPs in HSCs. Here, 264 GNBPs from the activated HSCs and 257 GNBPs from the quiescent HSCs were identified and annotated. A total of 46 GNBPs were estimated to be significantly up-regulated and 40 GNBPs were estimated to be significantly down-regulated in the activated HSCs. For example, the GNBPs (i.e. BTF3, COX17, and ATP5A1) responsible for the regulation of protein binding were up-regulated, and those (i.e. FAM114A1, ENO3, and TKT) responsible for the regulation of protein binding were down-regulated in the activated HSCs. The motifs of the isolated GNBPs showed that Proline residue had the maximum preference in consensus sequences. The western blotting showed the expression levels of COX17, and PRMT1 were significantly up-regulated, while, the expression level of CLIC1(B5) was down-regulated in the activated HSCs and liver cirrhosis tissues. Moreover, the GNBPs were sub-localized in the Golgi apparatus of HSCs. In conclusion, the precision alteration of the GNBPs referred to pathological changes in liver fibrosis/cirrhosis may provide useful information to find new molecular mechanism of HSC activation and discover the biomarkers for diagnosis of liver fibrosis/cirrhosis as well as development of new anti-fibrotic strategies. [ABSTRACT FROM AUTHOR]

Published

2015

36. Identification of a member of the catalase multigene family on wheat chromosome 7A associated with flour b* colour and biological significance of allelic variation.

Author

Li, Dora, Walker, Esther, and Francki, Michael

Subjects

*PLANT chromosomes, *CAROTENOIDS, *HYDROGEN peroxide, *POLYMERASE chain reaction, *TRIPEPTIDES

Abstract

Carotenoids (especially lutein) are known to be the pigment source for flour b* colour in bread wheat. Flour b* colour variation is controlled by a quantitative trait locus (QTL) on wheat chromosome 7AL and one gene from the carotenoid pathway, phytoene synthase, was functionally associated with the QTL on 7AL in some, but not all, wheat genotypes. A SNP marker within a sequence similar to catalase ( Cat3- A1snp) derived from full-length (FL) cDNA (AK332460), however, was consistently associated with the QTL on 7AL and implicated in regulating hydrogen peroxide (HO) to control carotenoid accumulation affecting flour b* colour. The number of catalase genes on chromosome 7AL was investigated in this study to identify which gene may be implicated in flour b* variation and two were identified through interrogation of the draft wheat genome survey sequence consisting of five exons and a further two members having eight exons identified through comparative analysis with the single catalase gene on rice chromosome 6, PCR amplification and sequencing. It was evident that the catalase genes on chromosome 7A had duplicated and diverged during evolution relative to its counterpart on rice chromosome 6. The detection of transcripts in seeds, the co-location with Cat3- A1snp marker and maximised alignment of FL-cDNA (AK332460) with cognate genomic sequence indicated that TaCat3- A1 was the member of the catalase gene family associated with flour b* colour variation. Re-sequencing identified three alleles from three wheat varieties, TaCat3- A1a, TaCat3- A1b and TaCat3- A1c, and their predicted protein identified differences in peroxisomal targeting signal tri-peptide domain in the carboxyl terminal end providing new insights into their potential role in regulating cellular HO that contribute to flour b* colour variation. [ABSTRACT FROM AUTHOR]

Published

2015

37. mLoc-mRNA: predicting multiple sub-cellular localization of mRNAs using random forest algorithm coupled with feature selection via elastic net

Author

Anil Rai, Atmakuri Ramakrishna Rao, and Prabina Kumar Meher

Subjects

Elastic net regularization, QH301-705.5, Bioinformatics, Computer science, Feature vector, Computer applications to medicine. Medical informatics, R858-859.7, Feature selection, Computational biology, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, Structural Biology, Machine learning, RNA, Messenger, Biology (General), Molecular Biology, Cellular localization, 030304 developmental biology, Cell Nucleus, 0303 health sciences, Sub-cellular localization, Methodology Article, Applied Mathematics, Statistical model, Computer Science Applications, Random forest, Test set, DNA microarray, Ribosomes, Algorithms, 030217 neurology & neurosurgery

Abstract

Background Localization of messenger RNAs (mRNAs) plays a crucial role in the growth and development of cells. Particularly, it plays a major role in regulating spatio-temporal gene expression. The in situ hybridization is a promising experimental technique used to determine the localization of mRNAs but it is costly and laborious. It is also a known fact that a single mRNA can be present in more than one location, whereas the existing computational tools are capable of predicting only a single location for such mRNAs. Thus, the development of high-end computational tool is required for reliable and timely prediction of multiple subcellular locations of mRNAs. Hence, we develop the present computational model to predict the multiple localizations of mRNAs. Results The mRNA sequences from 9 different localizations were considered. Each sequence was first transformed to a numeric feature vector of size 5460, based on the k-mer features of sizes 1–6. Out of 5460 k-mer features, 1812 important features were selected by the Elastic Net statistical model. The Random Forest supervised learning algorithm was then employed for predicting the localizations with the selected features. Five-fold cross-validation accuracies of 70.87, 68.32, 68.36, 68.79, 96.46, 73.44, 70.94, 97.42 and 71.77% were obtained for the cytoplasm, cytosol, endoplasmic reticulum, exosome, mitochondrion, nucleus, pseudopodium, posterior and ribosome respectively. With an independent test set, accuracies of 65.33, 73.37, 75.86, 72.99, 94.26, 70.91, 65.53, 93.60 and 73.45% were obtained for the respective localizations. The developed approach also achieved higher accuracies than the existing localization prediction tools. Conclusions This study presents a novel computational tool for predicting the multiple localization of mRNAs. Based on the proposed approach, an online prediction server “mLoc-mRNA” is accessible at http://cabgrid.res.in:8080/mlocmrna/. The developed approach is believed to supplement the existing tools and techniques for the localization prediction of mRNAs.

Published

2021

38. Functional balance between Tcf21–Slug defines cellular plasticity and migratory modalities in high grade serous ovarian cancer cell lines

Author

Madhuri More, Kshama Pansare, Ancy Abraham, Brijesh Kumar, Mohit Kumar Jolly, Sagar S. Varankar, Avinash M. Mali, Sharmila A. Bapat, Nivedhitha J Narayanan, Varankar, Sagar [0000-0002-2923-8616], and Apollo - University of Cambridge Repository

Subjects

0301 basic medicine, Cancer Research, Epithelial-Mesenchymal Transition, Plasticity, Slug, Cell Plasticity, migratory modalities, Biology, 03 medical and health sciences, 0302 clinical medicine, Cell Movement, Basic Helix-Loop-Helix Transcription Factors, Tumor Cells, Cultured, Tumor Microenvironment, medicine, Humans, Epithelial–mesenchymal transition, Transcription factor, Ovarian Neoplasms, Regulation of gene expression, Wound Healing, Cell migration, General Medicine, medicine.disease, biology.organism_classification, Phenotype, Cystadenocarcinoma, Serous, Cell biology, Gene Expression Regulation, Neoplastic, Tcf21, 030104 developmental biology, 030220 oncology & carcinogenesis, Female, Snail Family Transcription Factors, Neoplasm Grading, Ovarian cancer, sub-cellular localization

Abstract

Cellular plasticity and transitional phenotypes add to complexities of cancer metastasis that can be initiated by single cell epithelial to mesenchymal transition (EMT) or cooperative cell migration (CCM). Our study identifies novel regulatory cross-talks between Tcf21 and Slug in mediating phenotypic and migration plasticity in high-grade serous ovarian adenocarcinoma (HGSC). Differential expression and subcellular localization associate Tcf21, Slug with epithelial, mesenchymal phenotypes, respectively; however, gene manipulation approaches identify their association with additional intermediate phenotypic states, implying the existence of a multistep epithelial-mesenchymal transition program. Live imaging further associated distinct migratory modalities with the Tcf21/Slug status of cell systems and discerned proliferative/passive CCM, active CCM and EMT modes of migration. Tcf21–Slug balance identified across a phenotypic spectrum in HGSC cell lines, associated with microenvironment-induced transitions and the emergence of an epithelial phenotype following drug exposure. Phenotypic transitions and associated functionalities following drug exposure were affirmed to ensue from occupancy of Slug promoter E-box sequences by Tcf21. Our study effectively provides a framework for understanding the relevance of ovarian cancer plasticity as a function of two transcription factors.

Published

2019

39. Replication stress-induced Exo1 phosphorylation is mediated by Rad53/Pph3 and Exo1 nuclear localization is controlled by 14-3-3 proteins

Author

Nagaraja Chappidi, Stefano Ferrari, and Giuseppe De Gregorio

Subjects

DNA repair, Short Report, Biology, DNA replication, Pph3, Biochemistry, lcsh:RC254-282, Dephosphorylation, 03 medical and health sciences, Exonuclease 1, chemistry.chemical_compound, 0302 clinical medicine, Budding yeast, Phosphorylation, lcsh:QH573-671, Molecular Biology, 14-3-3, 030304 developmental biology, 0303 health sciences, Sub-cellular localization, Kinase, lcsh:Cytology, Cell Biology, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Cell biology, chemistry, 030220 oncology & carcinogenesis, Rad53, Exonuclease-1, DNA, Nuclear localization sequence

Abstract

Background Mechanisms controlling DNA resection at sites of damage and affecting genome stability have been the subject of deep investigation, though their complexity is not yet fully understood. Specifically, the regulatory role of post-translational modifications in the localization, stability and function of DNA repair proteins is an important aspect of such complexity. Results Here, we took advantage of the superior resolution of phosphorylated proteins provided by Phos-Tag technology to study pathways controlling the reversible phosphorylation of yeast Exo1, an exonuclease involved in a number of DNA repair pathways. We report that Rad53, a checkpoint kinase downstream of Mec1, is responsible for Exo1 phosphorylation in response to DNA replication stress and we demonstrate a role for the type-2A protein phosphatase Pph3 in the dephosphorylation of both Rad53 and Exo1 during checkpoint recovery. Fluorescence microscopy studies showed that Rad53-dependent phosphorylation is not required for the recruitment or the release of Exo1 from the nucleus, whereas 14-3-3 proteins are necessary for Exo1 nuclear translocation. Conclusions By shedding light on the mechanism of Exo1 control, these data underscore the importance of post-translational modifications and protein interactions in the regulation of DNA end resection. Electronic supplementary material The online version of this article (10.1186/s13008-018-0044-2) contains supplementary material, which is available to authorized users.

Published

2019

40. Comparison of mass spectrometry data and bioinformatics predictions to assess the bona fide localization of proteins identified in cell wall proteomics studies

Author

Artur Pinski, Elisabeth Jamet, Hélène San Clemente, Laurent Hoffmann, David Roujol, Cécile Pouzet, Luc Bordes, University of Silesia in Katowice, Laboratoire de Recherche en Sciences Végétales (LRSV), Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées, Dynamique et Evolution des Parois cellulaires végétales, Université Fédérale Toulouse Midi-Pyrénées-Université Toulouse III - Paul Sabatier (UT3), Fédération de Recherche Agrobiosciences, Interactions et Biodiversité (FR AIB), and Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Centre National de la Recherche Scientifique (CNRS)

Subjects

0106 biological sciences, 0301 basic medicine, Signal peptide, Proteomics, Proteome, Plant Science, Biology, Bioinformatics, 01 natural sciences, Mass Spectrometry, Cell wall, 03 medical and health sciences, Bioinformatics prediction, Cell Wall, Genetics, Extracellular, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, Secretion, TagRFP, Plant Proteins, Sub-cellular localization, Computational Biology, Biological activity, General Medicine, Confocal microscopy, Chloroplast, 030104 developmental biology, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

International audience; Plant cell walls have complex architectures made of polysaccharides among which cellulose, hemicelluloses, pectins and cell wall proteins (CWPs). Some CWPs are anchored in the plasma membrane through a glycosylphosphatidylinositol (GPI)-anchor. The secretion pathway is the classical route to reach the extracellular space. Based on experimental data, a canonical signal peptide (SP) has been defined, and bioinformatics tools allowing the prediction of the sub-cellular localization of proteins have been designed. In the same way, the presence of GPI-anchor attachment sites can be predicted using bioinformatics programs. This article aims at comparing the bioinformatics predictions of the sub-cellular localization of proteins assumed to be CWPs to mass spectrometry (MS) data. The sub-cellular localization of a few CWPs exhibiting particular features has been checked by cell biology approaches. Although the prediction of SP length is confirmed in most cases, it is less conclusive for GPI-anchors. Three main observations were done: (i) the variability observed at the N-terminus of a few mature CWPs could play a role in the regulation of their biological activity; (ii) one protein was shown to have a double sub-cellular localization in the cell wall and the chloroplasts; and (iii) peptides were found to be located at the C-terminus of several CWPs previously identified in GPI-anchored proteomes, thus raising the issue of their actual anchoring to the plasma membrane.

Published

2021

41. Non-specific lipid transfer proteins in plants: presenting new advances and an integrated functional analysis.

Author

Fang Liu, Xiaobo Zhang, Changming Lu, Xinhua Zeng, Yunjing Li, Donghui Fu, and Gang Wu

Subjects

*LIPID transfer protein, *PLANT growth, *PLANT development, *PLANT cellular signal transduction, *ABIOTIC stress, *GENE expression in plants, *PLANT classification

Abstract

Plant non-specific lipid-transfer proteins (nsLTPs) are small, basic proteins present in abundance in higher plants. They are involved in key processes of plant cytology, such as the stablization of membranes, cell wall organization, and signal transduction. nsLTPs are also known to play important roles in resistance to biotic and abiotic stress, and in plant growth and development, such as sexual reproduction, seed development and germination. The structures of plant nsLTPs contain an eight-cysteine residue conserved motif, linked by four disulfide bonds, and an internal hydrophobic cavity, which comprises the lipid-binding site. This structure endows stability and increases the ability to bind and/or carry hydrophobic molecules. There is growing interest in nsLTPs, due to their critical roles, resulting in the need for a comprehensive review of their form and function. Relevant topics include: nsLTP structure and biochemical features, their classification, identification, and characterization across species, sub-cellular localization, lipid binding and transfer ability, expression profiling, functionality, and evolution. We present advances, as well as limitations and trends, relating to the different topics of the nsLTP gene family. This review collates a large body of research pertaining to the role of nsLTPs across the plant kingdom, which has been integrated as an in depth functional analysis of this group of proteins as a whole, and their activities across multiple biochemical pathways, based on a large number of reports. This review will enhance our understanding of nsLTP activity in planta, prompting further work and insights into the roles of this multifaceted protein family in plants. [ABSTRACT FROM AUTHOR]

Published

2015

42. Genome-wide analysis of phylogeny, expression profile and sub-cellular localization of SKP1-Like genes in wild tomato.

Author

Zhang, YueQin, Wang, CuiPing, Lin, QingFang, Gao, FengHua, Ma, Yan, Zhang, Min, Lin, YueHui, Ma, QingHu, and Hua, XueJun

Subjects

*PLANT genomes, *PLANT phylogeny, *GENE expression in plants, *SOLANUM, *PROTEOLYSIS, TOMATO genetics

Abstract

SKP1 is a core component of SCF complex, a major type of E3 ubiquitin ligase catalyzing the last step in ubiquitin-mediated protein degradation pathway. In present study, SKP1 gene family in Solanum pimpinellifolium ( SSK ), a wild species of tomato, was investigated. A total of 19 SSK genes were identified through homologous search. Their chromosomal locations, gene structures, phylogeny, expression profiles, sub-cellular localizations and protein–protein interaction patterns with putative F-box proteins were analyzed in detail. The high homology and similar expression patterns among clustered SSK genes in chromosome suggested that they may have evolved from duplication events and are functionally redundant. Sub-cellular localization indicated that most of the SSK proteins are distributed in both cytosol and nucleus, except for SSK8 , which is detected in cytosol only. Tissue-specific expression patterns suggested that many SSK genes may be involved in tomato fruit development. Furthermore, several SSK genes were found to be responsive to heat stress and salicylic acid treatment. Based on phylogenetic analysis, expression profiles and protein interaction property, we proposed that tomato SSK1 and SSK2 might have similar function to ASK1 and ASK2 in Arabidopsis. [ABSTRACT FROM AUTHOR]

Published

2015

43. Regulation of CaMKII signaling in cardiovascular disease.

Author

Mollova, Mariya Y., Katus, Hugo A., Backs, Johannes, Santulli, Gaetano, and Bers, Donald M.

Subjects

CALCIUM-dependent protein kinase, CELLULAR signal transduction, HEART failure treatment

Abstract

Heart failure (HF) is a major cause of death in the developed countries (Murray and Lopez, 1996; Koitabashi and Kass, 2012). Adverse cardiac remodeling that precedes heart muscle dysfunction is characterized by a myriad of molecular changes affecting the cardiomyocyte. Among these, alterations in protein kinase pathways play often an important mediator role since they link upstream pathologic stress signaling with downstream regulatory programs and thus affect both the structural and functional integrity of the heart muscle. In the context of cardiac disease, a profound understanding for the overriding mechanisms that regulate protein kinase activity (protein-protein interactions, post-translational modifications, or targeting via anchoring proteins) is crucial for the development of specific and effective pharmacological treatment strategies targeting the failing myocardium. In this review, we focus on several mechanisms of upstream regulation of Ca2+-calmodulin-dependent protein kinase II that play a relevant pathophysiological role in the development and progression of cardiovascular disease; precise targeting of these mechanisms might therefore represent novel and promising tools for prevention and treatment of HF. [ABSTRACT FROM AUTHOR]

Published

2015

44. Overexpression of Artemisia annua sterol C-4 methyl oxidase gene, AaSMO1, enhances total sterols and improves tolerance to dehydration stress in tobacco.

Author

Singh, Alka, Jindal, Sunita, Longchar, Bendangchuchang, Khan, Feroz, and Gupta, Vikrant

Abstract

Biosynthesis of sterols is a multistep process in higher plants where the precursor cycloartenol gets converted into functional phytosterols after removal of two methyl groups at C-4 by an enzyme complex involving a sterol C-4 methyl oxidase (SMO). We identified and cloned a cDNA from Artemisia annua designated as AaSMO1 showing similarity to SMO. The cDNA predicted to encode a polytopic protein with characteristic histidine-rich motifs and an ER retrieval signal. GFP- AaSMO1 fusion protein was localized in endoplasmic reticulum of transformed protoplast and onion epidermal cells. AaSMO1 expression was drastically induced upon osmotic/dehydration stress and its promoter showed the presence of abscisic acid responsive element. Transgenic tobacco plants ectopically overexpressing AaSMO1 were raised, and various biochemical and physiological analyses of transgenics revealed increased total sterol, better germination and growth in subsequent generations. They also exhibited reduced sensitivity towards osmotic/dehydration stress which may be attributed to enhanced SMO1 activity. Our studies demonstrated that apart from acting as phytohormones, plant sterols also participate in providing capability to plants for improved growth and adaptation during stress conditions. AaSMO1 can be used as an excellent candidate for generating dehydration/drought tolerant plants. [ABSTRACT FROM AUTHOR]

Published

2015

45. Essential function of Aco2, a fusion protein of aconitase and mitochondrial ribosomal protein bL21, in mitochondrial translation in fission yeast.

Author

Jung, Soo-Jin, Seo, Youngdae, Lee, Kyung-Chang, Lee, Daeyoup, and Roe, Jung-Hye

Subjects

*CHIMERIC proteins, *RIBOSOMAL proteins, *MITOCHONDRIAL proteins, *SCHIZOSACCHAROMYCES pombe, *GREEN fluorescent protein, *GENE fusion

Abstract

A possible interaction between aconitase and a mitochondrial ribosomal protein was suggested in a genome-wide interactome study. In fission yeast Schizosaccharomyces pombe , the aco2 + gene encodes a fusion protein between aconitase and a putative mitochondrial ribosomal protein bL21 (Mrpl49). Two types of aco2 + transcripts are generated via alternative poly (A) site selection, producing both a single aconitase domain protein and the fusion form. The bL21-fused Aco2 protein resides in mitochondria as well as in the cytosol and the nucleus. The viability defect of aco2 mutation is complemented not by the aconitase domain but by the bL21 domain, which enables mitochondrial translation. [ABSTRACT FROM AUTHOR]

Published

2015

46. ROLE OF THE NON-PROTEIN THIOLS IN ACCUMULATION, TRANSLOCATION AND TOLERANCE OF LEAD IN Iris lactea var. chinensis.

Author

Hai-Yan Yuan, Su-Zhen Huang, Zhi Guo, Yong-Heng Yang, and Chun-Sun Gu

Abstract

The effect of exogenous glutathione (GSH) and L-buthionine-S,R-sulphoximine (BSO, an inhibitor of GSH and phytochelatin (PCs) synthesis) on lead (Pb) accumulation, translocation and growth of Iris lactea var. chinensis under Pb stress were investigated. The addition of 150 mg-L-1 GSH obviously enhances Pb accumulation and translocation to shoots in I. lactea var. chinensis compared with the single Pb stress and BSO addition. The growth inhibitions were not intense after GSH treatment, even though Pb kept high accumulation in roots and shoots, suggesting that Pb may be effectively detoxified under Pb together with GSH treatment. The cell ultrastructural examination of Pb in I. lactea var. chinensis supported the facts that exogenous application of GSH may alleviate Pb harm. In order to clarify the role of non-protein thiols (NPTs) in Pb toxicity, accumulation and translocation, the dynamic variations of Pb contents and NPT synthesis of PCs, GSH and cysteine (Cys) in I. lactea var. chinensis were analyzed under Pb (100-500 mg-L-1) treatment for 1-7 days. PC2 formation could be induced only in the roots, and the contents in roots enhanced gradually with increasing Pb concentrations in solutions and exposure time. The concentrations of shoot GSH also enhanced gradually, but GSH in roots showed a slight decline when exposed to 300 and 500 mg-L-1 Pb after 4 and 7 days. Cys showed induction at lower Pb level and initial stress, followed by decline. The correlation analysis between Pb accumulation and the synthesis of NPTs suggested that Pb in the roots of I. lactea var. chinensis may mainly be detoxified through chelation with PC2. while GSH may mainly serve as the role of promoting and transporting Pb to aboveground and detoxification. [ABSTRACT FROM AUTHOR]

Published

2015

47. The long non-coding RNA PCGEM1 is regulated by androgen receptor activity in vivo.

Author

Parolia, Abhijit, Crea, Francesco, Hui Xue, Yuwei Wang, Fan Mo, Ramnarine, Varune Rohan, Hui Hsuan Liu, Dong Lin, Nur Saidy, Nur Ridzwan, Clermont, Pier-Luc, Hongwei Cheng, Collins, Colin, Yuzhuo Wang, and Helgason, Cheryl D.

Subjects

*NON-coding RNA, *PROSTATE cancer, *CANCER invasiveness, *ANDROGEN receptors, *RNA sequencing, *GENE expression

Abstract

Background: Long non-coding RNAs (lncRNAs) can orchestrate oncogenic or tumor-suppressive functions in cancer biology. Accordingly, PCGEM1 and PRNCR1 were implicated in progression of prostate cancer (PCa) as transcriptional co-regulators of the androgen receptor (AR). However, these findings were recently refuted asserting that neither gene physically binds to the AR. Despite evidence for differing AR transcriptional programs in vivo and in vitro, studies investigating AR-regulation of these genes hitherto have only been conducted in vitro. Here, we further examine the relevance of PCGEM1 and PRNCR1 in PCa, and their relationship with AR signaling, using patient-derived xenograft models. Findings: RNA sequencing of two distinct androgen-dependent models shows PCGEM1 to be considerably expressed, while PRNCR1 showed scant basal expression. PCGEM1 was sharply down-regulated following castration and up-regulated upon AR activation in vivo. However, we found no parallel evidence following AR stimulation in vitro. A PCGEM1-associated gene expression signature (PES) was significantly repressed in response to androgen ablation therapy and in hormone-refractory versus hormone-naïve PCa patients. Furthermore, we found PCGEM1 was uniformly distributed in PCa cell nucleus and cytoplasm which remained unaltered upon AR transcriptional activation. PCGEM1 was up-regulated in primary PCa but not in metastasized PCa. Accordingly, the PES was significantly down-regulated in advanced and higher grade PCa patients from multiple independent studies. Conclusion: Our results demonstrate PCGEM1 as an in vivo androgen-regulated transcript with potential nuclear and/or cytoplasmic function(s). Importantly, the clinical expression profile of PCGEM1 implicates it in the early stages of PCa warranting further research in this direction. [ABSTRACT FROM AUTHOR]

Published

2015

48. OrganelX web server for sub-peroxisomal and sub-mitochondrial protein localization and peroxisomal target signal detection.

Author

Anteghini M, Haja A, Martins Dos Santos VAP, Schomaker L, and Saccenti E

Abstract

We present the OrganelX e-Science Web Server that provides a user-friendly implementation of the In-Pero and In-Mito classifiers for sub-peroxisomal and sub-mitochondrial localization of peroxisomal and mitochondrial proteins and the Is-PTS1 algorithm for detecting and validating potential peroxisomal proteins carrying a PTS1 signal sequence. The OrganelX e-Science Web Server is available at https://organelx.hpc.rug.nl/fasta/., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Authors.)

Published

2022

49. Replication stress-induced Exo1 phosphorylation is mediated by Rad53/Pph3 and Exo1 nuclear localization is controlled by 14-3-3 proteins

Author

Chappidi, Nagaraja, De Gregorio, Giuseppe, and Ferrari, Stefano

Published

2019

50. Developmental stage-dependent differential gene expression of superoxide dismutase isoenzymes and their localization and physical interaction network in rice ( Oryza sativa L.).

Author

Nath, Krishna, Kumar, Susheel, Poudyal, Roshan, Yang, Young, Timilsina, Rupak, Park, Yu, Nath, Jayamati, Chauhan, Puneet, Pant, Bijaya, and Lee, Choon-Hwan

Abstract

Superoxide dismutase (SOD) isoenzymes are essential for scavenging excess reactive oxygen species in living organisms. So far, expression pattern of SOD isoenzymes genes along leaf development plus their sub-cellular localization and physical interaction network have not yet been clearly elucidated. Using multiple bioinformatics tools, we predicted the sub-cellular localizations of SOD isoforms and described their physical interactions in rice. Using in silico approaches, we obtained several evidences for existence of seven SOD genes and a SOD copper chaperone gene. Their transcripts were differentially expressed along with different developmental stage of rice leaf. Finally, we performed quantitative real time-polymerase chain reaction (qRT-PCR) to validate in silico differential expression pattern of SOD genes experimentally. Expression of two cytosolic cCuZn- SODs was high during the whole vegetative stage. Two plastidic Fe-SODs were found and their expression levels were very low and started to increase from the late vegetative stage. Their expression patterns were very similar to each other, indicating the formation of heterodimer. However, their expression patterns are different from those for Arabidopsis Fe- SODs. The expression of pCuZn- SOD was very high in the early developmental stage, but qRT-PCR results were different, which remains for further study. From the results on the differential expression of SOD genes, we can understand the role of each SOD gene and even predict their role under certain circumstances based on in silico analysis. [ABSTRACT FROM AUTHOR]

Published

2014