Your search keyword '"cDNA library"' showing total 19,565 results

1. Mining the secreted and membrane transcriptome of Hyalomma dromedarii ticks for identification of potential protective antigens.

Author

Hussein, Nahla A., El-Shershaby, Asmaa S., Abdel-Moez, Shaimaa, El-Hakim, Amr E., and Shahein, Yasser E.

Abstract

Background: Members belonging to the tick genus Hyalomma function as a multi-host reservoir for several pathogens and important parasites infesting large animals, such as camels, goats, cattle and sheep. In Egypt, there is a high risk of pathogen transmission as camels and cattle are imported from Sudan and Ethiopia and shipped to slaughterhouses and animal markets located in populated areas. Hyalomma dromedarii ticks are semi-desert vectors and, similar to other members of the genus Hyalomma, characterized by long-term feeding. During this process, different physiological, biochemical and immunological interactions occur within both the feeding ticks and their hosts. These biological changes affect the different tick developmental phases. The aim of this study was to explore the transcriptome of mixed messenger RNAs (mRNAs) collected from H. dromedarii eggs, larvae, nymphs and fed and unfed adults, using the Gateway cDNA library prepared in pCMV sport6.1 vector Methods: The clones were sequenced and searched for potential secreted, membrane-associated or transmembrane (SMaT) sequences. The identified SMaT sequences were compared to the National Center for Biotechnology Information (NCBI) non-redundant protein sequence database using Blastx. Annotation and functional classification were achieved by comparison to sequences in the UniProtKB/Swiss-Prot and VectorBase databases and to the publicly available annotated proteomes of six hard tick species (H. asiaticum, Rhipicephalus sanguineus sensu lato, Dermacentor silvarum, Rhipicephalus microplus, Ixodes scapularis and Haemaphysalis longicornis) in addition to the published H. dromedarii sialotranscriptome. For the common sequences, we predicted the physicochemical properties, secondary structures and antigenicity of the fragments similar to matched sequences in the UniProtKB/Swiss-Prot database using three different methods. Results: The quality-trimmed sequences from the cDNA library revealed 319 SMaT transcripts among 1248 sequenced clones. Annotation of the SMaT sequences using the UniProtKB/Swiss-Prot database revealed only 232 non-redundant sequences with at least one match. According to the UniProtKB/Swiss-Prot and Vectorbase databases, the SMaT sequences were either secreted (extracellular) (29 sequences) or cellular (transmembrane and membrane-associated) (203 sequences). These were classified into 10 functional classes: biogenesis (49 sequences), defense (9 sequences), development (36 sequences), signal transduction (28 sequences), transport (15 sequences), protein modification (33 sequences), homeostasis (6 sequences), metabolism (45 sequences) and miscellaneous/uncharacterized (11 sequences). A total of 60 sequences were shared between H. dromedarii SMaT, the sialotransciptome and six other hard tick species. The peptide fragments of these sequences that aligned to proteins from the UniProtKB/Swiss-Prot database were predicted to be promising epitopes and mapped to 10 functional classes at different ratios. Conclusions: Our immuno-informatics analysis identified 60 sequences common among hard tick species and encoded by H. dromedarii salivary glands. These annotated SMaT sequences of H. dromedarii will pave the way for the identification and discovery of novel potential protective antigens that are either secreted, membrane-associated or transmembrane. [ABSTRACT FROM AUTHOR]

Published

2024

2. Comparison of RNA extraction methods in order to optimize total RNA extraction from borage tissues under cadmium stress.

Author

Aboutalebi, Sh., Zare, N., and Mosadegh, P. Sheikhzadeh

Subjects

NUCLEIC acid isolation methods, HEAVY metal toxicology, METABOLITES, NUCLEIC acids, TRANSCRIPTOMES, LITHIUM chloride

Abstract

Introduction: Transcriptomics studies speed up the basic and applied research on the identification of genes involved in the biosynthesis of medicinally significant primary and secondary metabolites as well as plant responses to biotic and abiotic stresses. The adequate quality and quantity of RNA are essential for successful transcriptomics investigations such as RNA sequencing (RNA-seq) and microarrays. It is extremely difficult to isolate RNA from medicinal plants with high levels of polyphenols and polysaccharides, such as Borago officinalis. Moreover, isolating nucleic acids from tissues exposed to stressful conditions of heavy metal toxicity such as cadmium is challenging due to the increased accumulation of reactive oxygen species (ROS) and secondary metabolites. Any RNA-seq experiment requires high-quality RNA because the isolated RNA should meet stringent quality control requirements in order to be sequenced on the various platforms. In the present study, we evaluated different RNA extraction methods to obtain an efficient protocol for isolating high-quality total RNA from borage tissue exposed to cadmium stress. Materials and methods: The borage seedlings were grown in hydroponic containers containing half-strength Hoagland's nutrient solution in a growth chamber. Borage seedlings were exposed to 162 μM Cd using cadmium nitrate (Cd (NO3)2.4H2O) at 5-6 leaves stage and sampled at 48 h after treatment. The roots and leaves were subjected to five RNA isolation methods, including phenol/chloroform-based method, CTAB-based method, SDS-based method, RNX-plus protocol, and modified RNX-plus method to obtain an efficient protocol for isolating high-quality total RNA. The concentration and purity of the RNAs extracted using the abovementioned protocols were determined using gel electrophoresis and NanoDrop spectrophotometer. The quality and integrity of selected total RNA were approved with cDNA synthesis, RT-PCR, Bioanalyzer System, and transcriptome sequencing. After evaluating the extraction methods, a quick, simple and efficient instruction based on the modified RNX-Plus extraction method was afforded. Results and discussion: The results showed that the modified RNX-plus method was a fast and efficient protocol for the isolation of RNA from the borage leaf and root when compared with other methods. The method overcame the limitations posed by poor quality and low concentration of isolated RNA from borage samples exposed to cadmium stress. The A260/A280 and A260/A230 ratios of the RNA extracted using the modified RNX-plus method were 2.1 and 2.07, respectively, revealing its high purity. The key factors in the optimized protocol that resulted in removing the impurities were included the increasing ratio of extraction buffer to the amount of the powdered plant sample, using the optimized volume of chloroform, raising the RNA precipitation time at -20°C, washing RNA with lithium chloride and washing again with ethanol. Also, the yields of 333±15 and 463±43 ng μl-1 of RNA with RNA integrity (RIN) numbers of 8.6 and 9.05 were obtained from roots under cadmium stress and control conditions using the described optimized method, respectively. Conclusion: In general, the results of this study showed that the modified RNX-Plus method is convenient, fast, and effective for the isolation of total RNA from borage root and leaf tissues that contain different levels of polysaccharides, polyphenols, and secondary metabolites, and no solution is needed to be prepared before, except for ethanol and Lithium chloride. Since the RNA extracted from this procedure was successfully used for cDNA library construction, RT-PCR, and RNA sequencing, it can be considered as a simple and efficient method for the isolation of RNA from medicinal plants. [ABSTRACT FROM AUTHOR]

Published

2024

3. Mining the secreted and membrane transcriptome of Hyalomma dromedarii ticks for identification of potential protective antigens

Author

Nahla A. Hussein, Asmaa S. El-Shershaby, Shaimaa Abdel-Moez, Amr E. El-Hakim, and Yasser E. Shahein

Subjects

Hyalomma dromedarii, Transcriptome, Vaccines, Membrane associated proteins, Secreted proteins, cDNA library, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Members belonging to the tick genus Hyalomma function as a multi-host reservoir for several pathogens and important parasites infesting large animals, such as camels, goats, cattle and sheep. In Egypt, there is a high risk of pathogen transmission as camels and cattle are imported from Sudan and Ethiopia and shipped to slaughterhouses and animal markets located in populated areas. Hyalomma dromedarii ticks are semi-desert vectors and, similar to other members of the genus Hyalomma, characterized by long-term feeding. During this process, different physiological, biochemical and immunological interactions occur within both the feeding ticks and their hosts. These biological changes affect the different tick developmental phases. The aim of this study was to explore the transcriptome of mixed messenger RNAs (mRNAs) collected from H. dromedarii eggs, larvae, nymphs and fed and unfed adults, using the Gateway cDNA library prepared in pCMV sport6.1 vector Methods The clones were sequenced and searched for potential secreted, membrane-associated or transmembrane (SMaT) sequences. The identified SMaT sequences were compared to the National Center for Biotechnology Information (NCBI) non-redundant protein sequence database using Blastx. Annotation and functional classification were achieved by comparison to sequences in the UniProtKB/Swiss-Prot and VectorBase databases and to the publicly available annotated proteomes of six hard tick species (H. asiaticum, Rhipicephalus sanguineus sensu lato, Dermacentor silvarum, Rhipicephalus microplus, Ixodes scapularis and Haemaphysalis longicornis) in addition to the published H. dromedarii sialotranscriptome. For the common sequences, we predicted the physicochemical properties, secondary structures and antigenicity of the fragments similar to matched sequences in the UniProtKB/Swiss-Prot database using three different methods. Results The quality-trimmed sequences from the cDNA library revealed 319 SMaT transcripts among 1248 sequenced clones. Annotation of the SMaT sequences using the UniProtKB/Swiss-Prot database revealed only 232 non-redundant sequences with at least one match. According to the UniProtKB/Swiss-Prot and Vectorbase databases, the SMaT sequences were either secreted (extracellular) (29 sequences) or cellular (transmembrane and membrane-associated) (203 sequences). These were classified into 10 functional classes: biogenesis (49 sequences), defense (9 sequences), development (36 sequences), signal transduction (28 sequences), transport (15 sequences), protein modification (33 sequences), homeostasis (6 sequences), metabolism (45 sequences) and miscellaneous/uncharacterized (11 sequences). A total of 60 sequences were shared between H. dromedarii SMaT, the sialotransciptome and six other hard tick species. The peptide fragments of these sequences that aligned to proteins from the UniProtKB/Swiss-Prot database were predicted to be promising epitopes and mapped to 10 functional classes at different ratios. Conclusions Our immuno-informatics analysis identified 60 sequences common among hard tick species and encoded by H. dromedarii salivary glands. These annotated SMaT sequences of H. dromedarii will pave the way for the identification and discovery of novel potential protective antigens that are either secreted, membrane-associated or transmembrane. Graphical abstract

Published

2024

4. Comparison of RNA extraction methods in order to optimize total RNA extraction from borage tissues under cadmium stress

Author

Shahrbano Abootalebi, Nasser Zare, and Parisa Sheikhzadeh Mosadegh

Subjects

borago officinalis, cdna library, heavy metal, rna-seq, rna integrity, Environmental sciences, GE1-350

Abstract

IntroductionTranscriptomics studies speed up the basic and applied research on the identification of genes involved in the biosynthesis of medicinally significant primary and secondary metabolites as well as plant responses to biotic and abiotic stresses. The adequate quality and quantity of RNA are essential for successful transcriptomics investigations such as RNA sequencing (RNA-seq) and microarrays. It is extremely difficult to isolate RNA from medicinal plants with high levels of polyphenols and polysaccharides, such as Borago officinalis. Moreover, isolating nucleic acids from tissues exposed to stressful conditions of heavy metal toxicity such as cadmium is challenging due to the increased accumulation of reactive oxygen species (ROS) and secondary metabolites. Any RNA-seq experiment requires high-quality RNA because the isolated RNA should meet stringent quality control requirements in order to be sequenced on the various platforms. In the present study, we evaluated different RNA extraction methods to obtain an efficient protocol for isolating high-quality total RNA from borage tissue exposed to cadmium stress.Materials and methodsThe borage seedlings were grown in hydroponic containers containing half-strength Hoagland's nutrient solution in a growth chamber. Borage seedlings were exposed to 162 μM Cd using cadmium nitrate (Cd (NO3)2.4H2O) at 5-6 leaves stage and sampled at 48 h after treatment. The roots and leaves were subjected to five RNA isolation methods, including phenol/chloroform-based method, CTAB-based method, SDS-based method, RNX-plus protocol, and modified RNX-plus method to obtain an efficient protocol for isolating high-quality total RNA. The concentration and purity of the RNAs extracted using the abovementioned protocols were determined using gel electrophoresis and NanoDrop spectrophotometer. The quality and integrity of selected total RNA were approved with cDNA synthesis, RT-PCR, Bioanalyzer System, and transcriptome sequencing. After evaluating the extraction methods, a quick, simple and efficient instruction based on the modified RNX-Plus extraction method was afforded.Results and discussionThe results showed that the modified RNX-plus method was a fast and efficient protocol for the isolation of RNA from the borage leaf and root when compared with other methods. The method overcame the limitations posed by poor quality and low concentration of isolated RNA from borage samples exposed to cadmium stress. The A260/A280 and A260/A230 ratios of the RNA extracted using the modified RNX-plus method were 2.1 and 2.07, respectively, revealing its high purity. The key factors in the optimized protocol that resulted in removing the impurities were included the increasing ratio of extraction buffer to the amount of the powdered plant sample, using the optimized volume of chloroform, raising the RNA precipitation time at -20°C, washing RNA with lithium chloride and washing again with ethanol. Also, the yields of 333±15 and 463±43 ng μl-1 of RNA with RNA integrity (RIN) numbers of 8.6 and 9.05 were obtained from roots under cadmium stress and control conditions using the described optimized method, respectively.ConclusionIn general, the results of this study showed that the modified RNX-Plus method is convenient, fast, and effective for the isolation of total RNA from borage root and leaf tissues that contain different levels of polysaccharides, polyphenols, and secondary metabolites, and no solution is needed to be prepared before, except for ethanol and Lithium chloride. Since the RNA extracted from this procedure was successfully used for cDNA library construction, RT-PCR, and RNA sequencing, it can be considered as a simple and efficient method for the isolation of RNA from medicinal plants.

Published

2024

5. 山药 DoWRKY40 基因表达特征分析及互作蛋白筛选.

Author

邢丽南, 张艳芳, 葛明然, 赵令敏, 陈妍, and 霍秀文

Abstract

[Objective] WRKY, as a plant idiosyncratic transcription factor, is involved in plant growth and development. DoWRKY40 gene in yam (Dioscorea opposita Thunb.) was cloned and its expression pattern was analyzed. The protein interacting with DoWRKY40 was screened by yeast two-hybrid technique to explore the regulatory mechanism of WRKY40 in the process of yam expansion. [Method] DoWRKY40 gene was cloned from ‘Dahechangyu’ yam, and bioinformatics analysis, expression pattern analysis and subcellular localization were performed. Yeast libraries of yam tuber at different developmental stages were constructed and DoWRKY40 interacting proteins were screened. [Result] The length of open reading frame of DoWRKY40 was 927 bp; DoWRKY40 belonged to group II of the WRKY family and contained a typical WRKY transcription factor conserved domain, which was localized in the nucleus. It was closely related to Dioscorea cayenensis subsp. The expression of DoWRKY40 gene was the highest at 120 d after the growth and development of yam tuber, and it was expressed in the leaves, stems and tubers with tissue specificity. The library capacity of yam cDNA library was 1.484×108; pGBKT7-WRKY40 decoy vector had no self-activation activity. Four kinds of proteins interacting with DoWRKY40 were screened from yam library by yeast two-hybridization, which were involved in plant growth and development, cell cycle regulation and cell expansion, signal transduction and environmental stress response, respectively. [Conclusion] The DoWRKY40 gene is cloned, which responds to the growth and development process of yam. The four interacting proteins are screened, suggesting that it plays a regulatory role in the expansion and signal transduction of yam cells. [ABSTRACT FROM AUTHOR]

Published

2024

6. Identification of Transcription Factors of Santalene Synthase Gene Promoters and SaSSY Cis-Elements through Yeast One-Hybrid Screening in Santalum album L.

Author

Zhou, Yunqing, Li, Xiang, Wang, Dongli, Yu, Zequn, Liu, Yunshan, Hu, Lipan, and Bian, Zhan

Subjects

TRANSCRIPTION factors, GENE libraries, HEAT shock proteins, METABOLITES, ESSENTIAL oils

Abstract

The main components of sandalwood heartwood essential oil are terpenoids, approximately 80% of which are α-santalol and β-santalol. In the synthesis of the main secondary metabolites of sandalwood heartwood, the key gene, santalene synthase (SaSSY), can produce α-santalene and β-santalene by catalyzed (E, E)-FPP. Furthermore, santalene is catalyzed by the cytochrome monooxygenase SaCYP736A167 to form sandalwood essential oil, which then produces a fragrance. However, the upstream regulatory mechanism of the key gene santalene synthase remains unclear. In this study, SaSSY (Sal3G10690) promoter transcription factors and SaSSY cis-elements were screened. The results showed that the titer of the sandalwood cDNA library was 1.75 × 107 CFU/mL, 80% of the inserted fragments identified by PCR were over 750 bp in length, and the positivity rate of the library was greater than 90%. The promoter region of the SaSSY gene was shown to have the structural basis for potential regulatory factor binding. After sequencing and bioinformatics analysis, we successfully obtained 51 positive clones and identified four potential SaSSY transcriptional regulators. Sal6G03620 was annotated as the transcription factor MYB36-like, and Sal8G07920 was annotated as the small heat shock protein HSP20 in sandalwood. Sal1G00910 was annotated as a hypothetical protein of sandalwood. Sal4G10880 was annotated as a homeobox-leucine zipper protein (ATHB-15) in sandalwood. In this study, a cDNA library of sandalwood was successfully constructed using a yeast one-hybrid technique, and the transcription factors that might interact with SaSSY gene promoters were screened. This study provides a foundation for exploring the molecular regulatory mechanism involved in the formation of sandalwood heartwood. [ABSTRACT FROM AUTHOR]

Published

2024

7. 玉米大斑病菌 cDNA 文库的构建及转录因子 StMR1 互作蛋白的筛选.

Author

王秋月, 段鹏亮, 李海笑, 刘宁, 曹志艳, and 董金皋

Abstract

【Objective】To screen the interaction proteins of transcription factors of Setosphaeria turcica, and to analyze the molecular mechanism of melanin-regulated transcription factor StMR1 in regulating the pathogenicity of S. turcica. This study provides a reference for elucidating the regulatory network of transcription factors in the infection process of S. turcica and elucidating the pathogenic mechanism of the pathogen.【Method】Different germination stages of hyphae and spores of S. turcica were collected as test materials, and the cDNA library of S. turcica was constructed by gateway method, The bait vector of transcription factor StMR1 was constructed by homologous recombination, and its interacting proteins were screened by yeast two-hybrid technology and verified one-to-one.【Result】The average fragment length of the constructed library was greater than 1 000 bp, the library capacity of the primary library and the secondary library were 1.2×107 and 1.04×107 CFU, respectively, and the recombination rate was 100%, which could be used for yeast two-hybrid screening. The bait vector pGBKT7-StMR1 that could be used for screen library was successfully constructed, and three interacting proteins were obtained through primary screening and rescreening, and one-to-one verification of the interaction between short-chain dehydrogenase, glycosyltransferase and leucine-rich repeat protein and transcription factor StMR1 were verified.【Conclusion】A high quality and abundant cDNA library was successfully constructed and the protein interacting with StMR1 was screened [ABSTRACT FROM AUTHOR]

Published

2024

8. FUNCTIONAL METATRANSCRIPTOMICS REVEALS A NOVEL MICRO-EUKARYOTIC GENE WITH POTENTIAL INVOLVEMENT IN METAL ION BINDING AND CATALYTIC ACTIVITIES.

Author

Yadav, Bhupendra Narayan Singh, Sharma, Priyanka, Maurya, Shristy, and Yadav, Rajiv Kumar

Subjects

CATALYTIC activity, HEAVY metals, METAL ions, GALACTOSE, METAL detectors, SEQUENCE analysis

Abstract

The continuous introduction of heavy metal pollutants into the soil due to human activities can be harmful to both macro and microorganisms within the ecosystem. This study utilized a functional metatranscriptomics approach to investigate the potential functional roles of eukaryotic microbes in such environments. Micro-eukaryotic specific cDNA libraries of different sizes were created from high-quality RNA isolated from heavy metal contaminated soil. These libraries underwent screening for genes associated with cadmium (Cd) tolerance by functional complementation in a cadmium-sensitive yeast mutant strain. Screening of the cDNA libraries resulted in the isolation of various clones with the ability to thrive in a medium supplemented with cadmium. In this study, the transcript JMB-11 from one of such libraries was characterized and assessed for its capacity to withstand elevated levels of the heavy metal. JMB-11 sequence analysis showed homology to a hypothetical aldose 1-epimerase and demonstrated the ability to withstand high Cd concentration. The recognized protein, displaying distinctive traits of aldose 1-epimerase, not only clarifies its involvement in linking lactose and galactose metabolism but also underscores its importance as a metal ion-binding protein essential for regulating metal in polluted soil. This research establishes that JMB-11 serves as a newly identified and potent gene linked to metal tolerance. It holds potential applications in the regeneration of heavy metal contaminated soils or as a biomarker for detecting metal pollution. [ABSTRACT FROM AUTHOR]

Published

2024

9. 白菜种子 cDNA 酵母文库的构建及 BrTTG1 互作蛋白 的筛选及分析.

Author

任延靖, 张鲁刚, 赵孟良, 李江, and 邵登魁

Abstract

[Objective] Screening the interacting protein of WDR40 protein TRANSPARENT TESTA GLABRA 1（TTG1）by constructing the cDNA library of Chinese cabbage seeds, the molecular mechanism of TTG1 in the regulation of the formation of MBW ternary complex will be explored. [Method] Seeds of brown-seeded Chinese cabbage ‘B147’ were used as materials for RNA extraction and cDNA library construction. The bait vector pGBKT7-TTG1 was constructed by gateway technology and then yeast two-hybrid screening were performed. [Result] The library capacity was 1.2×107 CFU and library titer was 5.0×107 CFU/mL with average length of the insert greater than 1 000 bp. The bait vector had no self-activating activity in yeast. A total of 38 positive interacting proteins were obtained by hybridizing the bait vector pGBKT7-TTG1 with the cDNA library. Function prediction revealed one of the proteins annotated as a MYB73 transcription factor. Sequence analysis results showed that this gene contained R2R3-MYB type suppressor conserved motifs C1 and C2, speculated that this gene may be the R2R3-MYB suppressor involving in the seed coat color formation in Chinese cabbage, suggesting that there may be different MYB transcription factors in the regulation network affecting the formation of proanthocyanidins. [Conclusion] In this study, a yeast two-hybrid cDNA library of Chinese cabbage seed-specific tissue is constructed and a total of 38 TTG1-positive interacting proteins are obtained. We found the R2R3-MYB type suppressor MYB73 that may affect the formation of proanthocyanidin color in cabbage seed coat for the first time. This study lays a good foundation for exploring the regulatory network of proanthocyanindins formation. [ABSTRACT FROM AUTHOR]

Published

2024

10. Metagenomics and metatranscriptomics as potential driving forces for the exploration of diversity and functions of micro-eukaryotes in soil.

Author

Yadav, Bhupendra Narayan Singh, Sharma, Priyanka, Maurya, Shristy, and Yadav, Rajiv Kumar

Subjects

*SOIL biology, *METAGENOMICS, *SOIL profiles, *SOILS, *ECOSYSTEMS, *FOSSIL microorganisms

Abstract

Micro-eukaryotes are ubiquitous and play vital roles in diverse ecological systems, yet their diversity and functions are scarcely known. This may be due to the limitations of formerly used conventional culture-based methods. Metagenomics and metatranscriptomics are enabling to unravel the genomic, metabolic, and phylogenetic diversity of micro-eukaryotes inhabiting in different ecosystems in a more comprehensive manner. The in-depth study of structural and functional characteristics of micro-eukaryote community residing in soil is crucial for the complete understanding of this major ecosystem. This review provides a deep insight into the methodologies employed under these approaches to study soil micro-eukaryotic organisms. Furthermore, the review describes available computational tools, pipelines, and database sources and their manipulation for the analysis of sequence data of micro-eukaryotic origin. The challenges and limitations of these approaches are also discussed in detail. In addition, this review summarizes the key findings of metagenomic and metatranscriptomic studies on soil micro-eukaryotes. It also highlights the exploitation of these methods to study the structural as well as functional profiles of soil micro-eukaryotic community and to screen functional eukaryotic protein coding genes for biotechnological applications along with the future perspectives in the field. [ABSTRACT FROM AUTHOR]

Published

2023

11. Screening of Tnfaip1-Interacting Proteins in Zebrafish Embryonic cDNA Libraries Using a Yeast Two-Hybrid System

Author

Shulan Huang, Hongning Zhang, Wen Chen, Jiawei Wang, Zhen Wu, Meiqi He, Jian Zhang, Xiang Hu, and Shuanglin Xiang

Subjects

Tnfaip1, zebrafish embryos, cDNA library, yeast two-hybrid system, interacting protein, Biology (General), QH301-705.5

Abstract

TNFAIP1 regulates cellular biological functions, including DNA replication, DNA repair, and cell cycle, by binding to target proteins. Identification of Tnfaip1-interacting proteins contributes to the understanding of the molecular regulatory mechanisms of their biological functions. In this study, 48 hpf, 72 hpf, and 96 hpf wild-type zebrafish embryo mRNAs were used to construct yeast cDNA library. The library titer was 1.12 × 107 CFU/mL, the recombination rate was 100%, and the average length of the inserted fragments was greater than 1000 bp. A total of 43 potential interacting proteins of Tnfaip1 were identified using zebrafish Tnfaip1 as a bait protein. Utilizing GO functional annotation and KEGG signaling pathway analysis, we found that these interacting proteins are mainly involved in translation, protein catabolic process, ribosome assembly, cytoskeleton formation, amino acid metabolism, and PPAR signaling pathway. Further yeast spotting analyses identified four interacting proteins of Tnfaip1, namely, Ubxn7, Tubb4b, Rpl10, and Ybx1. The Tnfaip1-interacting proteins, screened from zebrafish embryo cDNA in this study, increased our understanding of the network of Tnfaip1-interacting proteins during the earliest embryo development and provided a molecular foundation for the future exploration of tnfaip1’s biological functions.

Published

2023

12. Identification of Transcription Factors of Santalene Synthase Gene Promoters and SaSSY Cis-Elements through Yeast One-Hybrid Screening in Santalum album L.

Author

Yunqing Zhou, Xiang Li, Dongli Wang, Zequn Yu, Yunshan Liu, Lipan Hu, and Zhan Bian

Subjects

cDNA library, promoter, sandalwood, SaSSY gene, Botany, QK1-989

Abstract

The main components of sandalwood heartwood essential oil are terpenoids, approximately 80% of which are α-santalol and β-santalol. In the synthesis of the main secondary metabolites of sandalwood heartwood, the key gene, santalene synthase (SaSSY), can produce α-santalene and β-santalene by catalyzed (E, E)-FPP. Furthermore, santalene is catalyzed by the cytochrome monooxygenase SaCYP736A167 to form sandalwood essential oil, which then produces a fragrance. However, the upstream regulatory mechanism of the key gene santalene synthase remains unclear. In this study, SaSSY (Sal3G10690) promoter transcription factors and SaSSY cis-elements were screened. The results showed that the titer of the sandalwood cDNA library was 1.75 × 107 CFU/mL, 80% of the inserted fragments identified by PCR were over 750 bp in length, and the positivity rate of the library was greater than 90%. The promoter region of the SaSSY gene was shown to have the structural basis for potential regulatory factor binding. After sequencing and bioinformatics analysis, we successfully obtained 51 positive clones and identified four potential SaSSY transcriptional regulators. Sal6G03620 was annotated as the transcription factor MYB36-like, and Sal8G07920 was annotated as the small heat shock protein HSP20 in sandalwood. Sal1G00910 was annotated as a hypothetical protein of sandalwood. Sal4G10880 was annotated as a homeobox-leucine zipper protein (ATHB-15) in sandalwood. In this study, a cDNA library of sandalwood was successfully constructed using a yeast one-hybrid technique, and the transcription factors that might interact with SaSSY gene promoters were screened. This study provides a foundation for exploring the molecular regulatory mechanism involved in the formation of sandalwood heartwood.

Published

2024

13. Utilizing Dichloromethane as an Extremely Proficient Substitute for Phenol/Chloroform in Extracting RNA with Exceptional Purity from Woody Tissues of Coconut.

Author

Iqbal, Amjad and Yang, Yaodong

Subjects

COCONUT, RNA, COCONUT palm, PLANT RNA, PHENOL, DICHLOROMETHANE, PLANT polyphenols

Abstract

Procuring high-grade RNA from mature coconut tissues is a tricky and labor-intensive process due to the intricate scaffold of polysaccharides, polyphenols, lipids, and proteins that form firm complexes with nucleic acids. However, we have effectively developed a novel method for the first time, letting the retrieval of high-grade RNA from the roots, endosperm, and mesocarp of mature coconut trees take place. In this method, we exploited dichloromethane as a replacement to phenol/chloroform for RNA recovery from mature coconut tissues. The amount of high-grade RNA acquired from the roots of mature coconut trees was 120.7 µg/g, with an A260/280 ratio of 1.95. Similarly, the mature coconut mesocarp yielded 134.6 µg/g FW of quality RNA with A260/280 ratio of 1.98, whereas the mature coconut endosperm produced 120.4 µg/g FW of quality RNA with A260/280 ratio of 2.01. Furthermore, the RNA isolation using the dichloromethane method exhibited excellent performance in downstream experiments, particularly in RT-PCR for cDNA production and amplification. On the contrary, the RNA plant kit, TRIZOL, and Cetyl Trimethyl Ammonium Bromide (CTAB) methods were unsuccessful in isolating substantial quantities of RNA with exceptional purities from the mentioned coconut tissues. In view of these findings, we conclude that the newly developed method will be pivotal in effectively extracting RNA with high purity from mature coconut tissues. [ABSTRACT FROM AUTHOR]

Published

2023

14. 利用酵母双杂交系统筛选水稻中与 OsCRK5 互作蛋白.

Author

王子颖, 龙晨洁, 范兆宇, and 张蕾

Abstract

Rice (Oryza sativa L.) is an important food crop, research on the regulation mechanism of rice growth and development can lay a theoretical foundation for the improvement of rice varieties. Calcium dependent protein kinases (CDPKs) are important protein kinases in plants which participate in plant growth and development, as well as in response to environmental reactions. CRK5 (CDPK related kinase 5) in rice is highly homologous to CDPK in protein sequence and structure. Yeast two-hybrid screening library technology was used to screen OsCRK5 interacting proteins related to plant drought resistance in order to explore the molecular mechanism of OsCRK5 participating in drought response in rice plants. Firstly, the 1-1 332 bp fragment of OsCRK5 was cloned into the plastmid pGBKT7, and the bait vector pGBKT7-OsCRK5 was obtained. After verification by sequencing, the bait vector was transformed into the yeast strain Y2H Gold.It was observed that the recombinant protein didn't demonstrate the toxic effects and self-activation in selective nutrition medium, and the expression of the recombinant protein was analyzed by Western blot. Furthermore, the interacting proteins of OsCRK5 were screened from the rice cDNA library and 77 positive clones were obtained. The functional prediction showed that the interacting proteins were involved in protein synthesis, degradation and storage process, transcriptional regulation, cell growth and division process, energy metabolism and cell metabolic processes. Finally, OsWR1 and OsDi19-1 related to plant drought stress response were selected from positive clones. The interaction between OsCRK5 and OsWR1 and OsDi19-1 was verified by yeast two-hybrid and biomolecular fluorescence complementation experiments. The results lay a foundation for the genetic improvement of drought tolerance in rice. [ABSTRACT FROM AUTHOR]

Published

2023

15. 小麦叶锈菌与小麦互作的酵母双杂交 cDNA 文库构建与 应用.

Author

温晓蕾, 李建嫄, 李娜, 张娜, and 杨文香

Abstract

In order to screen the target proteins interacting with effector proteins of the wheat leaf rust and to lay a foundation for dissecting the defense response mechanism of the effector proteins interfering with hosts and disease resistance breeding, the samples of interaction between the isolate13-5-28-1 (JHKT) and susceptible wheat variety Thatcher at 0-12 d were collected. The three-frame homogenization was constructed by SMART method to screen the wheat cDNA library interacting with the wheat leaf rust. The homologous recombination method was used to construct the recombinant bait vector pGBKT7-Pt34084 of the effector factor Pt34084, and it was used as the bait protein to screen the interaction target protein by co-transformation method. The results showed that the cDNA library structure of the interaction between the wheat leaf rust and wheat was successfully constructed. The library capacity was about 1.05×107 CFU/mL, the titer was 1.2×109 CFU/mL, the average insertion fragment was more than 1 kb, and the recombination positive rate was 100%. The cDNA library met the requirement. The constructed bait recombinant vector pGBKT7-Pt34084 inhibited its self-activation after the addition of 20 mmol/L 3-AT and 400 ng/mL ABA to SD/-Trp-His-Ade medium. By this library a total of 16 different candidate interacting proteins from the wheat and the leaf rust were screened. These proteins were involved in plant metabolism, hormone signal transduction, plant disease resistance and other aspects. It indicated that Pt34084 could interfere with the host defense response and promote leaf rust infection through multiple pathways. The results are conducive to analyzing the pathogenic mechanism of wheat leaf rust and lay a foundation for creating new effective strategies to prevent and control wheat leaf rust. [ABSTRACT FROM AUTHOR]

Published

2023

16. Peroxisomal KAT2 (3-ketoacyl-CoA thiolase 2) gene has a key role in gingerol biosynthesis in ginger (Zingiber officinale Rosc.).

Author

Sreeja, S., Shylaja, M. R., Nazeem, P. A., and Mathew, Deepu

Abstract

Ginger is an important spice crop with medicinal values and gingerols are the most abundant pungent polyphenols present in ginger, responsible for most of its pharmacological properties. The present study focuses on the molecular mechanism of gingerol biosynthesis in ginger using transcriptome analysis. Suppression Subtractive Hybridization (SSH) was done in leaf and rhizome tissues using high gingerol-producing ginger somaclone B3 as the tester and parent cultivar Maran as the driver and generated high-quality leaf and rhizome Expressed Sequence Tags (ESTs). The Blast2GO annotations of the ESTs revealed the involvement of leaf ESTs in secondary metabolite production, identifying the peroxisomal KAT2 gene (Leaf EST 9) for the high gingerol production in ginger. Rhizome ESTs mostly coded for DNA metabolic processes and differential genes for high gingerol production were not observed in rhizomes. In the qRT-PCR analysis, somaclone B3 had shown high chalcone synthase (CHS: rate-limiting gene in gingerol biosynthetic pathway) activity (0.54 fold) in the leaves of rhizome sprouts. The presence of a high gingerol gene in leaf ESTs and high expression of CHS in leaves presumed that the site of synthesis of gingerols in ginger is the leaves. A modified pathway for gingerol/polyketide backbone formation has been constructed explaining the involvement of KAT gene isoforms KAT2 and KAT5 in gingerol/flavonoid biosynthesis, specifically the KAT2 gene which is otherwise thought to be involved mainly in β-oxidation. The results of the present investigations have the potential of utilizing KAT/thiolase superfamily enzymes for protein/metabolic pathway engineering in ginger for large-scale production of gingerols. [ABSTRACT FROM AUTHOR]

Published

2023

17. Gene Isolation Methods: Beginner’s Guide

Author

Patil, Rajendra, Sivaram, Aruna, Patil, Nayana, Kalyuzhny, Alexander E., Series Editor, Patil, Nayana, and Sivaram, Aruna

Published

2022

18. Molecular Characterization of a cDNA Encoding of an Anionic Cysteine-Free Antimicrobial Peptide From the Iranian Scorpion Odontobuthus Doriae Venom Glands

Author

Amir Jalali, Masoud Mahdavinia, Hamid Galehdari, Masoumeh Baradaran, Davood Valdi-Biranvand, and Maryam Naderi Soorki

Subjects

anionic cysteine-free, molecular characterization, cdna library, odontobuthus doriae, venom glands, Therapeutics. Pharmacology, RM1-950

Abstract

Background: The venom peptides from the scorpion fauna of Iran have been poorly characterized so far. Objectives: In this study, we identified a cDNA encoding of an anionic cysteine-free antimicrobial peptide from the Iranian yellow scorpion odontobuthus doriae (O.doriae). Methods: The cDNA sequence of an anionic antimicrobial-peptide (AMP) was determined from the venom gland cDNA library of Iranian yellow scorpion O.doriae and was named ODAMP5. This sequence was characterized by a software. Then, the structure and function of its putative peptide were predicted in a bioinformatics manner. The library was constructed from 6 scorpion venom glands. The cDNA related to ODAMP5 was isolated from one positive clone of the library. Results: The analysis of ODAMP5 reveals a 51-residue mature peptide with an anionic property that was stable in physiological states. ODAMP5 was similar to anionic peptide Aba-2 from Androctonus bicolor and according to its structure, it can be a member of helical structure AMPs with a new type of putative conserved domain. Putative ODAMP5 has a small size which makes it convenient for synthesis. Conclusion: Furthermore, we created a framework to express the ODAMP5 peptide for future biomedical and pharmacological studies. ODAMP5 may be a new suitable therapeutic strategy for bacterial infection among a few recognized scorpion venom peptides without disulfide bridges.

Published

2022

19. The Molecular Composition of Peptide Toxins in the Venom of Spider Lycosa coelestis as Revealed by cDNA Library and Transcriptomic Sequencing.

Author

Wu, Xiangyue, Chen, Yan, Liu, Hao, Kong, Xiangjin, Liang, Xinyao, Zhang, Yu, Tang, Cheng, and Liu, Zhonghua

Subjects

*SPIDER venom, *CALCIUM channels, *PEPTIDES, *TOXINS, *BIOMOLECULES, *SMALL molecules, *DORSAL root ganglia

Abstract

In the so-called "struggle for existence" competition, the venomous animals developed a smart and effective strategy, envenomation, for predation and defense. Biochemical analysis revealed that animal venoms are chemical pools of proteinase, peptide toxins, and small organic molecules with various biological activities. Of them, peptide toxins are of great molecular diversity and possess the capacity to modulate the activity of ion channels, the second largest group of drug targets expressed on the cell membrane, which makes them a rich resource for developing peptide drug pioneers. The spider Lycosa coelestis (L. coelestis) commonly found in farmland in China is a dominant natural enemy of agricultural pests; however, its venom composition and activity were never explored. Herein, we conducted cDNA library and transcriptomic sequencing of the venom gland of L. coelestis, which identified 1131 high-quality expressed sequence tags (ESTs), grouped into three categories denoted as toxin-like ESTs (597, 52.79%), cellular component ESTs (357, 31.56%), and non-matched ESTs (177, 15.65%). These toxin-like ESTs encode 98 non-reductant toxins, which are artificially divided into 11 families based on their sequence homology and cysteine frameworks (2–14 cysteines forming 1–7 disulfide bonds to stabilize the toxin structure). Furthermore, RP-HPLC purification combined with off-line MALDI-TOF analysis have detected 147 different peptides physically existing in the venom of L. coelestis. Electrophysiology analysis confirmed that the venom preferably inhibits the voltage-gated calcium channels in rat dorsal root ganglion neurons. Altogether, the present study has added a great lot of new members to the spider toxin superfamily and built the foundation for characterizing novel active peptides in the L. coelestis venom. [ABSTRACT FROM AUTHOR]

Published

2023

20. Screening of genes encoding proteins that interact with ISG15: Probing a cDNA library from a snakehead fish cell line using a yeast two-hybrid system.

Author

Liu, Xiaodan, Zhang, Liwen, Zhang, Yanbing, Vakharia, Vikram N., Zhang, Xiaojun, Lv, Xiaoyang, and Sun, Wei

Subjects

*SNAKEHEADS (Fish), *FISHING lines, *COMPLEMENTARY DNA, *CELL lines, *PROTEIN-protein interactions, *RIBOSOMAL proteins

Abstract

Interferon-stimulated gene 15 (ISG15) regulates cellular life processes, including defense responses against infection by a variety of viral pathogens, by binding to target proteins. At present, various fish ISG15s have been identified, but the biological function of ISG15 in snakehead fish is still unclear. In this study, total RNA was extracted from snakehead fish cell line E11, ds cDNA was synthesized and purified using SMART technology, and the resulting cDNA library was screened by co-transforming yeast cells. The library titer was 4.28 × 109 CFU/mL. Using snakehead ISG15 as the bait protein, the recombinant bait vector pGBKT7-ISG15 was constructed and transformed into the yeast strain Y2HGold. The toxicity and self-activation activity of the bait vector were detected on the deficient medium, and the prey proteins interacting with ISG15 were screened. In total, 19 interacting proteins of ISG15 were identified, including mitotic checkpoint protein BUB3, hypothetical protein SnRVgp6, elongation factor 1-beta, 60S ribosomal protein L9, dual specificity protein phosphatase 5-like, eukaryotic translation initiation factor 3 subunit I and ferritin. A yeast spotting assay further probed the interaction between ISG15 and DUSP5. These results increase our understanding of the interaction network of snakehead ISG15 and will aid in exploring the underlying mechanisms of snakehead ISG15 functions in the future. • The yeast two-hybrid cDNA library were constructed from E11 cells. • Nineteen ISG15-interacting proteins were identified in E11 cDNA yeast library. • Yeast spotting assay confirmed DUSP5 interacting with ISG15. [ABSTRACT FROM AUTHOR]

Published

2022

21. Utilizing Dichloromethane as an Extremely Proficient Substitute for Phenol/Chloroform in Extracting RNA with Exceptional Purity from Woody Tissues of Coconut

Author

Amjad Iqbal and Yaodong Yang

Subjects

dichloromethane, RNA extraction, cDNA library, RT-PCR, TRIZOL, CTAB, Biology (General), QH301-705.5

Abstract

Procuring high-grade RNA from mature coconut tissues is a tricky and labor-intensive process due to the intricate scaffold of polysaccharides, polyphenols, lipids, and proteins that form firm complexes with nucleic acids. However, we have effectively developed a novel method for the first time, letting the retrieval of high-grade RNA from the roots, endosperm, and mesocarp of mature coconut trees take place. In this method, we exploited dichloromethane as a replacement to phenol/chloroform for RNA recovery from mature coconut tissues. The amount of high-grade RNA acquired from the roots of mature coconut trees was 120.7 µg/g, with an A260/280 ratio of 1.95. Similarly, the mature coconut mesocarp yielded 134.6 µg/g FW of quality RNA with A260/280 ratio of 1.98, whereas the mature coconut endosperm produced 120.4 µg/g FW of quality RNA with A260/280 ratio of 2.01. Furthermore, the RNA isolation using the dichloromethane method exhibited excellent performance in downstream experiments, particularly in RT-PCR for cDNA production and amplification. On the contrary, the RNA plant kit, TRIZOL, and Cetyl Trimethyl Ammonium Bromide (CTAB) methods were unsuccessful in isolating substantial quantities of RNA with exceptional purities from the mentioned coconut tissues. In view of these findings, we conclude that the newly developed method will be pivotal in effectively extracting RNA with high purity from mature coconut tissues.

Published

2023

22. Meiotic cDNA libraries reveal gene truncations and mitochondrial proteins important for competitive fitness in Saccharomyces cerevisiae.

Author

Sing, Tina L., Conlon, Katie, Lu, Stephanie H., Madrazo, Nicole, Morse, Kaitlin, Barker, Juliet C., Hollerer, Ina, Brar, Gloria A., Sudmant, Peter H., and Ünal, Elçin

Subjects

*PROTEIN metabolism, *HUMAN reproduction, *DNA, *GENETIC mutation, *CELL physiology, *FUNGI, *MITOCHONDRIA, *GENES, *SACCHAROMYCES, *GENE expression profiling, *STEM cells, *RESPIRATION, *DOSE-response relationship in biochemistry

Abstract

Gametogenesis is an evolutionarily conserved developmental program whereby a diploid progenitor cell undergoes meiosis and cellular remodeling to differentiate into haploid gametes, the precursors for sexual reproduction. Even in the simple eukaryotic organism Saccharomyces cerevisiae, the meiotic transcriptome is very rich and complex, thereby necessitating new tools for functional studies. Here, we report the construction of 5 stage-specific, inducible complementary DNA libraries from meiotic cells that represent over 84% of the genes found in the budding yeast genome. We employed computational strategies to detect endogenous meiotic transcript isoforms as well as library-specific gene truncations. Furthermore, we developed a robust screening pipeline to test the effect of each complementary DNA on competitive fitness. Our multiday proof-of-principle time course revealed 877 complementary DNAs that were detrimental for competitive fitness when overexpressed. The list included mitochondrial proteins that cause dose-dependent disruption of cellular respiration as well as library-specific gene truncations that expose a dominant negative effect on competitive growth. Together, these highquality complementary DNA libraries provide an important tool for systematically identifying meiotic genes, transcript isoforms, and protein domains that are important for a specific biological function. [ABSTRACT FROM AUTHOR]

Published

2022

23. An easy and robust method for the isolation of high quality RNA from coconut tissues

Author

Amjad Iqbal, Yaodong Yang, Yi Wu, Jing Li, Muhammad Hamayun, Anwar Hussain, and Farooq Shah

Subjects

cDNA library, Coconut tissues, Complex matrices, High quality RNA, RNA extraction, RT-PCR, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5

Abstract

Background: Coconut tissues consist of a complex network of polysaccharides, proteins, polyphenols, and lipids that can bind to nucleic acids and pose difficulty in isolation. Certainly, a vigorous method is required to isolate high quality and quantity of RNA from such tissues for the purpose of downstream experiments. In this paper, we discuss a newly developed method for the Isolation of RNA from Complex Matrices (IRCM) method from coconut tissues. Results: The method is robust, cheap, and efficient for the extraction of quality RNA in high quantities from the solid endosperm of stored and fresh coconut (150 μg/g FW with A260/280 = 1.89 and 247.5 μg/g FW with A260/280 = 1.91), coconut apple (263.8 μg/g FW with A260/280 = 1.97), and coconut bud (1052.5 μg/g FW with A260/280 = 2.00). The other well established methods, such as Method of RNA Isolation from Palm (MRIP), Cetyl Trimethyl Ammonium Bromide (CTAB), TRIZOL, and RNA plant kit failed to isolate quality RNA in appreciable quantities from the coconut tissues. Furthermore, the resultant RNA performed well in the downstream experiment, that is, RT-PCR for the production and amplification of cDNA. Conclusions: From the study, we concluded that the present method will play a vital role in the extraction of high quality RNA from complex matrices in a short time.How to cite: Iqbal A, Yang Y, Wu Y, et al. An easy and robust method for the isolation of high quality RNA from coconut tissues. Electron J Biotechnol 2020;48. https://doi.org/10.1016/j.ejbt.2020.09.008

Published

2020

24. The Molecular Composition of Peptide Toxins in the Venom of Spider Lycosa coelestis as Revealed by cDNA Library and Transcriptomic Sequencing

Author

Xiangyue Wu, Yan Chen, Hao Liu, Xiangjin Kong, Xinyao Liang, Yu Zhang, Cheng Tang, and Zhonghua Liu

Subjects

Lycosa coelestis, cDNA library, peptide toxin, diversity, transcriptome sequencing, Medicine

Abstract

In the so-called “struggle for existence” competition, the venomous animals developed a smart and effective strategy, envenomation, for predation and defense. Biochemical analysis revealed that animal venoms are chemical pools of proteinase, peptide toxins, and small organic molecules with various biological activities. Of them, peptide toxins are of great molecular diversity and possess the capacity to modulate the activity of ion channels, the second largest group of drug targets expressed on the cell membrane, which makes them a rich resource for developing peptide drug pioneers. The spider Lycosa coelestis (L. coelestis) commonly found in farmland in China is a dominant natural enemy of agricultural pests; however, its venom composition and activity were never explored. Herein, we conducted cDNA library and transcriptomic sequencing of the venom gland of L. coelestis, which identified 1131 high-quality expressed sequence tags (ESTs), grouped into three categories denoted as toxin-like ESTs (597, 52.79%), cellular component ESTs (357, 31.56%), and non-matched ESTs (177, 15.65%). These toxin-like ESTs encode 98 non-reductant toxins, which are artificially divided into 11 families based on their sequence homology and cysteine frameworks (2–14 cysteines forming 1–7 disulfide bonds to stabilize the toxin structure). Furthermore, RP-HPLC purification combined with off-line MALDI-TOF analysis have detected 147 different peptides physically existing in the venom of L. coelestis. Electrophysiology analysis confirmed that the venom preferably inhibits the voltage-gated calcium channels in rat dorsal root ganglion neurons. Altogether, the present study has added a great lot of new members to the spider toxin superfamily and built the foundation for characterizing novel active peptides in the L. coelestis venom.

Published

2023

25. Selection and identification of singledomain antibody against Peste des Petits Ruminants virus.

Author

Dan Liu, Lingxia Li, Xiaoan Cao, Jinyan Wu, Guoyu Du, and Youjun Shang

Subjects

PESTE des petits ruminants, ENZYME-linked immunosorbent assay, NEUTRALIZATION tests, SHEEP diseases, WESTERN immunoblotting, COMPLEMENTARY DNA, IMMUNOGLOBULINS

Abstract

Background: Peste des petits ruminants (PPR) is an infectious disease caused by the peste des petits ruminants virus (PPRV) that mainly produces respiratory symptoms in affected animals, resulting in great losses in the world's agriculture industry every year. Singledomain variable heavy chain (VHH) antibody fragments, also referred to as nanobodies, have high expression yields and other advantages including ease of purification and high solubility. Objectives: The purpose of this study is to obtain a single-domain antibody with good reactivity and high specificity against PPRV. Methods: A VHH cDNA library was established by immunizing camels with PPRV vaccine, and the capacity and diversity of the library were examined. Four PPRV VHHs were selected, and the biological activity and antigen-binding capacity of the four VHHs were identified by western blot, indirect immunofluorescence, and enzyme-linked immunosorbent assay (ELISA) analyses. ELISA was used to identify whether the four VHHs were specific for PPRV, and VHH neutralization tests were carried out. ELISA and western blot analyses were used to identify which PPRV protein was targeted by VHH2. Results: The PPRV cDNA library was constructed successfully. The library capacity was greater than 2.0 × 106 cfu/mL, and the inserted fragment size was approximately 400 bp to 2000 bp. The average length of the cDNA library fragment was about 1000 bp, and the recombination rate was approximately 100%. Four single-domain antibody sequences were selected, and proteins expressed in the supernatant were obtained. The four VHHs were shown to have biological activity, close affinity to PPRV, and no cross-reaction with common sheep diseases. All four VHHs had neutralization activity, and VHH2 was specific to the PPRV M protein. Conclusions: The results of this preliminary research of PPRV VHHs showed that four screened VHH antibodies could be useful in future applications. This study provided new materials for inclusion in PPRV research. [ABSTRACT FROM AUTHOR]

Published

2021

26. Mandibular muscle troponin of the Florida carpenter ant Camponotus floridanus: extending our insights into invertebrate Ca2+ regulation.

Author

Shi, Yun, Bethea, Julia P., Hetzel-Ebben, Hannah L., Landim-Vieira, Maicon, Mayper, Ross J., Williams, Regan L., Kessler, Lauren E., Ruiz, Amanda M., Gargiulo, Kathryn, Rose, Jennifer S. M., Platt, Grayson, Pinto, Jose R., Washburn, Brian K., and Chase, P. Bryant

Abstract

Ants use their mandibles for a variety of functions and behaviors. We investigated mandibular muscle structure and function from major workers of the Florida carpenter ant Camponotus floridanus: force-pCa relation and velocity of unloaded shortening of single, permeabilized fibres, primary sequences of troponin subunits (TnC, TnI and TnT) from a mandibular muscle cDNA library, and muscle fibre ultrastructure. From the mechanical measurements, we found Ca2+-sensitivity of isometric force was markedly shifted rightward compared with vertebrate striated muscle. From the troponin sequence results, we identified features that could explain the rightward shift of Ca2+-activation: the N-helix of TnC is effectively absent and three of the four EF-hands of TnC (sites I, II and III) do not adhere to canonical sequence rules for divalent cation binding; two alternatively spliced isoforms of TnI were identified with the alternatively spliced exon occurring in the region of the IT-arm α-helical coiled-coil, and the N-terminal extension of TnI may be involved in modulation of regulation, as in mammalian cardiac muscle; and TnT has a Glu-rich C-terminus. In addition, a structural homology model was built of C. floridanus troponin on the thin filament. From analysis of electron micrographs, we found thick filaments are almost as long as the 6.8 μm sarcomeres, have diameter of ~ 16 nm, and typical center-to-center spacing of ~ 46 nm. These results have implications for the mechanisms by which mandibular muscle fibres perform such a variety of functions, and how the structure of the troponin complex aids in these tasks. [ABSTRACT FROM AUTHOR]

Published

2021

27. Construction of strains to identify novel factors for regulation of centromeric cohesion protection (CCP) and sister kinetochore mono-orientation (SKM)

Author

Akhilendra Pratap Bharati and Santanu Kumar Ghosh

Subjects

Centromere, cDNA library, Cohesion, Galactose, Kinetochore, Monopolin, Cytology, QH573-671

Abstract

Abstract Background Meiosis-I is a unique type of chromosome segregation where each chromosome aligns and segregates from its homolog. The mechanism of meiosis I homolog separation in different eukaryotes depends on their centromere and kinetochore architecture which in turn relies mainly on two processes, first on a specialized four protein complex known as monopolin and second, the centromeric cohesion protection (CCP). However, in mammals the complex has not been identified. Furthermore, in budding yeast, there could be additional factors in this process which includes some meiosis specific and some non meiosis specific factors. Result We constructed two strains. In the first strain we expressed Mam1 and Cdc5 which leads to sister kinetochore monoorientation (SKM) and in the second case we expressed Rec8 and Spo13 which enhanced CCP even in mitosis. The expression of these proteins in mitotically dividing cells caused co-orientation of the chromosomes, which lead to the cell death followed by miss-segregation of chromosomes. Then we utilized these strains to screen the cDNA libraries from yeast and mammals to identify the novel factors which participate in CCP and SKM. Finally, SGY4119 strain expressing Spo13 and Rec8 was transformed with pRS316 gal cDNA library and transformants were screened for lethality on galactose. We screened ~ 105 transformants colonies. Out of these ~ 3000 colonies were able to survive on galactose plate which was narrow down to 6 on the basis of desired phenotype. Conclusion So far, meiosis specific kinetochore proteins have been identified only in two yeasts. Recently, in mammals a meiosis specific kinetochore protein (MEIKIN) has been identified with similar function. Till now a single protein in mammals and four proteins monopolin complex in budding yeast has been identified to coorient the centromere. Many more novel factors have to be identified yet. That is why we wished to device genetic screen using a functional genomics approach. Since the list of proteins already identified in yeast is not exhaustive as the circumstantial evidence suggests, we wish to use the same yeast strains to identify additional novel yeast proteins that may be involved in the execution of meiosis.

Published

2019

28. Construction of a kiwifruit yeast two-hybrid cDNA library to identify host targets of the Pseudomonas syringae pv. actinidiae effector AvrPto5

Author

Karthikeyan Dharmaraj, Wei Cui, Erik H. A. Rikkerink, and Matthew D. Templeton

Subjects

Host target, Bacterial canker, Heavy metal-associated protein, cDNA library, Type three secreted effector, Medicine, Biology (General), QH301-705.5, Science (General), Q1-390

Abstract

Abstract Objective Bacterial canker is a destructive disease of kiwifruit caused by the Gram-negative bacterium Pseudomonas syringae pv. actinidiae (Psa). To understand the disease-causing mechanism of Psa, a kiwifruit yeast two-hybrid cDNA library was constructed to identify putative host targets of the Psa Type Three Secreted Effector AvrPto5. Results In this study, we used the Mate & Plate™ yeast two-hybrid library method for constructing a kiwifruit cDNA library from messenger RNA of young leaves. The constructed library consisted of 2.15 × 106 independent clones with an average insert size of 1.52 kb. The screening of the kiwifruit yeast two-hybrid cDNA library with Psa AvrPto5 revealed the interaction of a V-type proton ATPase subunit-H, a proline rich-protein and heavy metal-associated isoprenylated plant protein 26. Among these, heavy metal-associated isoprenylated plant protein 26 showed a positive interaction with Psa AvrPto5 as both prey and bait.

Published

2019

29. Random Transfer of Ogataea polymorpha Genes into Saccharomyces cerevisiae Reveals a Complex Background of Heat Tolerance.

Author

Taisuke Seike, Yuki Narazaki, Yoshinobu Kaneko, Hiroshi Shimizu, and Fumio Matsuda

Subjects

*OGATAEA polymorpha, *SACCHAROMYCES cerevisiae, *BIOENGINEERING, *GENETIC transformation, *PROTEIN synthesis

Abstract

Horizontal gene transfer, a process through which an organism acquires genes from other organisms, is a rare evolutionary event in yeasts. Artificial random gene transfer can emerge as a valuable tool in yeast bioengineering to investigate the background of complex phenotypes, such as heat tolerance. In this study, a cDNA library was constructed from the mRNA of a methylotrophic yeast, Ogataea polymorpha, and then introduced into Saccharomyces cerevisiae. Ogataea polymorpha was selected because it is one of the most heat-tolerant species among yeasts. Screening of S. cerevisiae populations expressing O. polymorpha genes at high temperatures identified 59 O. polymorpha genes that contribute to heat tolerance. Gene enrichment analysis indicated that certain S. cerevisiae functions, including protein synthesis, were highly temperature-sensitive. Additionally, the results confirmed that heat tolerance in yeast is a complex phenotype dependent on multiple quantitative loci. Random gene transfer would be a useful tool for future bioengineering studies on yeasts. [ABSTRACT FROM AUTHOR]

Published

2021

30. 酵母双杂交筛选与小麦黄花叶病毒 P2 互作的寄主因子.

Author

韩晓蕾, 高仕祺, 张帆, 羊健, 刘芃, 姜鸿明, and 李林志

Abstract

Copyright of Acta Agriculturae Zhejiangensis is the property of Acta Agriculturae Zhejiangensis Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

31. cDNA expression library screening revealed novel functional genes involved in clear cell carcinogenesis of the ovary in vitro.

Author

Yamada, Yasushi, Miyamoto, Tsutomu, Higuchi, Shotaro, Ono, Motoki, Kobara, Hisanori, Asaka, Ryoichi, Ando, Hirofumi, Suzuki, Akihisa, and Shiozawa, Tanri

Subjects

*GENES, *COMPLEMENTARY DNA, *GONAD development, *HUMAN carcinogenesis, *IMMUNOSTAINING, *OVARIES, *CARCINOGENESIS

Abstract

In order to identify genes involved in the pathogenesis of clear cell carcinoma of the ovary (CCC), functional screening using a cDNA expression library was performed. We extracted mRNA from a CCC cell line (RMG-1), established a cDNA library using a retroviral vector, transfected that library into mouse NIH3T3 cells and sequenced the resultant foci. The tissue-type specific expression of isolated genes and their transforming activities were evaluated. Seven genes were isolated. Of these genes, the mRNA expression of SEC61B and DVL1 is significantly stronger in CCC than in other histological types (p <.05). Immunohistochemical staining reveals the stronger expression of SEC61B and C1ORF38 than normal ovarian tissues (p <.05). Focus formation is confirmed by the transfection of SEC61B, C1ORF38, and DVL1 into NIH3T3 cells. The present study identified novel genes including SEC61B, C1ORF38, and DVL1, involved in the pathogenesis of CCC. These genes may be additional therapeutic targets for CCC. What is already known on this subject? Several important genetic abnormalities, including ARID1A and PIK3CA mutations, have been reported in ovarian clear cell carcinoma (CCC). What the results of this study add? SEC61B, C1ORF38, and DVL1 were newly detected as candidate genes involved in ovarian clear cell carcinogenesis. What the implications are of these findings for clinical practice and/or further research? Functional screening using a cDNA expression library may be a useful technique to identify functional genes for pathogenesis. The information obtained using this technique may provide new therapeutic targets of CCC. [ABSTRACT FROM AUTHOR]

Published

2021

32. Development of microarray techniques for the study of gene expression in the European eel (Anguilla anguilla) during silvering and migration to seawater

Author

McWilliam, Iain Stuart, Cramb, Gordon, and Hazon, N.

Subjects

591.35, European eel, Anguilla, Microarray, 14-3-3, VRK3, Prolactin, cDNA library, Gene expression, Salinity, Silvering, Sexual development, QP624.5D726M8, DNA microarrays, Anguilla anguilla--Genetics, Anguilla anguilla--Development, Osmoregulation, Gene expression

Abstract

The European eel, Anguilla anguilla, has a complex life-cycle involving migrations between the Sargasso Sea and the river systems of Europe and North Africa. The requirement to move across large salinity gradients presents a significant physiological challenge and the developmental stages of the eel are closely linked to these migrations. Microarrays were created to elucidate gene expression changes occurring during; i. The transition from juvenile yellow to the adult sexually maturing, migrating silver eel and; ii. Salinity adaptation during the migration from freshwater to seawater. Groups (n = 6) of freshwater-acclimated yellow or silver eels were transferred to seawater for between 6 hours and 5 months and complementary control groups were transferred to freshwater. Brain, kidney, intestine and gill cDNA libraries were constructed using suppression subtractive hybridisation (SSH) techniques and a novel protocol based on Invitrogen's Gateway cloning system. The latter technique produced a low redundancy (~4 %) EST bank with a wide range of insert sizes (0.5 – 10 kb). Two microarray types were produced; one comprised 5760 clones from the two brain libraries whilst the other was a multi-tissue microarray incorporating 6144 clones from the SSH libraries. Pooled RNA samples were probed against the microarrays to highlight differentially expressed genes. Real-time quantitative PCR (QPCR) was used to validate the observed expression changes of selected genes in the tissues of individual fish. Following yellow to silver transformation of freshwater-adapted eels, the expression of tyrosine 3-mono-oxygenase/tryptophan 5-mono-oxygenase activation protein (14-3-3) and vaccinia related kinase 3 was shown to be consistently elevated. Prolactin expression increased in the brains of silver eels following two-day seawater-acclimation but QPCR analysis revealed high variation amongst freshwater-adapted eels. This is the first eel microarray study and the expression profiles highlighted herein will provide new avenues for research into the sexual development and salinity acclimation of A. anguilla.

Published

2008

33. Molecular Diversity of Peptide Toxins in the Venom of Spider Heteropoda pingtungensis as Revealed by cDNA Library and Transcriptome Sequencing Analysis

Author

Qingyi Liao, Xiangjin Kong, Guoqing Luo, Xiangyue Wu, Yinping Li, Qicai Liu, Cheng Tang, and Zhonghua Liu

Subjects

Heteropoda pingtungensis, cDNA library, transcriptome sequencing, peptide toxin, diversity, Medicine

Abstract

The venoms of toxic animals are chemical pools composed of various proteins, peptides, and small organic molecules used for predation and defense, in which the peptidic toxins have been intensively pursued mining modulators targeting disease-related ion channels and receptors as valuable drug pioneers. In the present study, we uncovered the molecular diversity of peptide toxins in the venom of the spider Heteropoda pingtungensis (H. pingtungensis) by using a combinatory strategy of venom gland cDNA library and transcriptome sequencing (RNA-seq). An amount of 991 high-quality expressed sequence tags (ESTs) were identified from 1138 generated sequences, which fall into three categories, such as the toxin-like ESTs (531, 53.58%), the cellular component ESTs (255, 25.73%), and the no-match ESTs (205, 20.69%), as determined by gene function annotations. Of them, 190 non-redundant toxin-like peptides were identified and can be artificially grouped into 13 families based on their sequence homology and cysteine frameworks (families A–M). The predicted mature toxins contain 2–10 cysteines, which are predicted to form intramolecular disulfide bonds to stabilize their three-dimensional structures. Bioinformatics analysis showed that toxins from H. pingtungensis venom have high sequences variability and the biological targets for most toxins are unpredictable due to lack of homology to toxins with known functions in the database. Furthermore, RP-HPLC and MALDI-TOF analyses have identified a total of 110 different peptides physically existing in the H. pingtungensis venom, and many RP-HPLC fractions showed potent inhibitory activity on the heterologously expressed NaV1.7 channel. Most importantly, two novel NaV1.7 peptide antagonists, µ-Sparatoxin-Hp1 and µ-Sparatoxin-Hp2, were characterized. In conclusion, the present study has added many new members to the spider toxin superfamily and built the foundation for identifying novel modulators targeting ion channels in the H. pingtungensis venom.

Published

2022

34. ELISA based on a recombinant Paragonimus heterotremus protein for serodiagnosis of human paragonimiasis in Thailand

Author

Kanokkarn Pothong, Chalit Komalamisra, Thareerat Kalambaheti, Dorn Watthanakulpanich, Timothy P. Yoshino, and Paron Dekumyoy

Subjects

Paragonimus heterotremus, cDNA library, Recombinant protein, Paragonimiasis, Immunodiagnosis, IgG-ELISA, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Paragonimus heterotremus is the main causative agent of paragonimiasis in Thailand. In Western blot diagnostic assays for paragonimiasis, the 35 kDa band present in crude P. heterotremus somatic extracts represents one of the known diagnostic bands. This study aimed to use a P. heterotremus cDNA library to create a recombinant version of this antigen for use in immunodiagnosis of paragonimiasis. Methods To accomplish this aim a cDNA expression library was constructed from adult worm mRNA and immuno-screened using antibodies from mice that had been immunized with the 35 kDa antigen. Screening resulted in the identification of an immunoreactive protein encoded by clone CE3, which contained an inserted sequence composed of 1292 base pairs. This clone was selected for use in the construction of a recombinant P. heterotremus protein because of its similarity to proactivator polypeptide. For recombinant protein expression, the CE3 gene sequence was inserted into the plasmid vector pRset and the resulting product had the expected molecular weight of 35 kDa. An IgG-ELISA based on the CE3 recombinant protein was evaluated by using sera from healthy individuals, from patients with paragonimiasis and other parasitic infections. This ELISA was performed by using human sera diluted at 1:2000, an optimized antigen concentration of 1 μg/ml, and anti-human IgG diluted at 1:4000. Results The cut-off optical density value was set as the mean + 2 standard deviations (0.54), which resulted in the test having a sensitivity of 88.89% and a specificity of 95.51%. The recombinant antigen could react with antibodies from P. heterotremus, P. pseudoheterotremus and P. westermani infections. Cross-reactivity occurred with a few cases of Blastocystis hominis infection (2/3), Bancroftian filariasis (1/10), opisthorchiasis (3/10), strongyloidiasis (4/10) and neurocysticercosis (1/11). Conclusions Given the high test sensitivity and specificity, reflected in the low level of heterologous infection cross-reactivity (11/215 serum samples), observed in the IgG-ELISA, this 35 kDa antigen may be useful for the detection of paragonimiasis.

Published

2018

35. Analysis of expressed genes in normal and tumoral mammary gland tissue of the terrier dog

Author

Nehir OZDEMIR OZGENTURK, Zehra OMEROGLU ULU, Salih ULU, Merve CELIK, Burcin TELLIOGLU, Funda YILDIRIM, Iraz AKIS AKAD, Aydın GUREL, Cemal UN, and Kemal Ozdem OZTABAK

Subjects

terrier, dog, breast cancer, est, cdna library, Veterinary medicine, SF600-1100

Abstract

Mammary gland tumor is the most common type of tumor in female dogs. Data on genes that are involved in tumorigenesis and mechanism of tumor development are insufficient. Comparative studies have been conducted in order to see if tumorigenesis studies in the dog could be a model for human mammary gland tumors. In this study, we constructed two different cDNA libraries from mammary tissue, which were collected from a normal mammary tissue of a healthy Terrier dog and a tumoral mammary tissue of a sick dog. A total 2304 colonies which are randomly picked out from the two libraries were sequenced for developing a dog mammary gland ESTs collection. Raw EST data were analyzed with Phred/Phrap programs and readable EST sequences were assembled with the CAP3 program. All of EST sequences were grouped into 45 contig and 2203 singletons. Putative functions of all unique sequences were designated by NCBI BLAST based on gene homology and annotated by BLAST2GO. The results of this study are a very valuable resource for functional genome studies of the dogs.

Published

2018

36. Analysis of putative sclerotia maturation-related gene expression in Rhizoctonia solani AG1-IA

Author

Liu Bo, Ma Zhoujie, Gai Xiaotong, Sun Yanqiu, Wang Yanfeng, He Shidao, and Gao Zenggui

Subjects

Rhizoctoniasolani AG1-IA, expressed sequence tags, qRT-PCR, sclerotial formation, sheath blight of maize, cDNA library, Biology (General), QH301-705.5

Abstract

Rhizoctonia solani AG1-IA (R. solani AG1-IA) is a major soil-borne fungal pathogen of maize that causes significant yield losses in all maize-growing regions worldwide. The sclerotium produced by R. solani AG1-IA can overwinter in grass roots or diseased plants and infect crops the following year. The molecular mechanism underlying sclerotium formation in R. solani is poorly understood. In this study, we constructed the cDNA library of the R. solani AG1-IA pathogenic strain WF-9, from which 329 high-quality expressed sequence tags (ESTs) were obtained. Of the 250 clustered unigenes, 12 genes were selected for further expression analysis during the three stages of sclerotial growth (mycelium, initiation of sclerotium, and maturation of sclerotium). The results of expression analysis support the previously suggested roles of chitin synthase D and exo-beta-1,3-glucanase in facilitating sclerotial growth through preservation of water content and energy. In addition, cytochrome P450, NADPH oxidase, catalase (CAT), acyl-CoA oxidase 1 (ACOX1), mitogen-activated protein kinase (MAPK), mitogen-activated protein kinase HOG1 (HOG 1), and the G-protein α subunit play important roles in balancing reactive oxygen species (ROS) levels during sclerotial development. The findings of this study can help understand the molecular mechanism of sclerotial development further.

Published

2018

37. An easy and robust method for the isolation of high quality RNA from coconut tissues.

Author

Iqbal, Amjad, Yaodong Yang, Yi Wu, Jing Li, Hamayun, Muhammad, Hussain, Anwar, and Shah, Farooq

Subjects

*NUCLEIC acid isolation methods, *COCONUT, *PLANT RNA, *RNA, *NUCLEIC acids, *REVERSE transcriptase

Abstract

Background: Coconut tissues consist of a complex network of polysaccharides, proteins, polyphenols, and lipids that can bind to nucleic acids and pose difficulty in isolation. Certainly, a vigorous method is required to isolate high quality and quantity of RNA from such tissues for the purpose of downstream experiments. In this paper, we discuss a newly developed method for the Isolation of RNA from Complex Matrices (IRCM) method from coconut tissues. Results: The method is robust, cheap, and efficient for the extraction of quality RNA in high quantities from the solid endosperm of stored and fresh coconut (150 µg/g FW with A260/280 = 1.89 and 247.5 µg/g FW with A260/280 = 1.91), coconut apple (263.8 µg/g FW with A260/280 = 1.97), and coconut bud (1052.5 µg/g FW with A260/280 = 2.00). The other well established methods, such as Method of RNA Isolation from Palm (MRIP), Cetyl Trimethyl Ammonium Bromide (CTAB), TRIZOL, and RNA plant kit failed to isolate quality RNA in appreciable quantities from the coconut tissues. Furthermore, the resultant RNA performed well in the downstream experiment, that is, RT-PCR for the production and amplification of cDNA. Conclusions: Fromthe study, we concluded that the present method will play a vital role in the extraction of high quality RNA from complex matrices in a short time. [ABSTRACT FROM AUTHOR]

Published

2020

38. 霜霉菌侵染后葡萄叶片酵母双杂交cDNA文库构建.

Author

刘露露, 曲俊杰, 郭泽西, 孙大运, 潘凤英, and 尹玲

Subjects

VITIS vinifera, ANTISENSE DNA, B cells, DOWNY mildew diseases, ESCHERICHIA coli, GRAPES, RNA

Abstract

Copyright of Journal of Southern Agriculture is the property of Journal of Southern Agriculture and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

39. Construction of Yeast Two-Hybrid Vectors for Screening Novel OTULIN-, OTUB1- and OTUB2-Interacting Protein from Human cDNA Library.

Author

Zulkifli, Nur Wahida and Zulkifle, Nurulisa

Subjects

*ANTISENSE DNA, *DNA analysis, *CLONE cells, *NUCLEOTIDE sequence, *YEAST, *GENE libraries, *LEVONORGESTREL intrauterine contraceptives

Abstract

Introduction: OTULIN, OTUB1 and OTUB2 are deubiquitinases, the enzymes responsible for reversing ubiquitination process that occupies key roles in numerous cellular processes. The ubiquitination protein-protein interaction (PPI) network has been extensively explored in order to unravel the complexity of ubiquitin pathway. However, many significant challenges remain to develop a network-based understanding of the ubiquitination complexity including incompleteness of human interactome. Therefore, we aim to construct a pair of yeast two-hybrid (Y2H) vectors using pDEST32/pDEST22 vector system as a preparation for screening OTULIN-, OTUB1- and OTUB2-interacting proteins from human cDNA library, with ultimate aim of expanding the PPI network in human ubiquitome. Methods: OTULIN, OTUB1 and OTUB2 were cloned into entry vector using pCR™8/GW/TOPO® TA Cloning® system and shuttled into pDEST™32 bait vector by LR recombination reaction. To generate Y2H prey library clones, cDNA library was synthesized from HEK293 cells and cloned into donor vector pDONR™222 before transferred into destination vector pDEST™22. Results: DNA sequencing analysis confirmed the correct sequence of OTULIN, OTUB1 and OTUB2 inserts in pDEST32. Meanwhile, generation of cDNA library in pDEST22 produced 5.2 x 106 clones. Randomly picked pDEST22-cDNA clones showed that the recombination rate was 83% and gel electrophoresis indicated that the inserts length ranged from 0.45 to 3.4 kb. Conclusion: OTULIN, OTUB1, OTUB2 and cDNA library were successfully cloned into Y2H bait and prey vectors. The clones have been transfected into competent yeast Saccharomyces cerevisiae strain MaV203 and Y2H experiment to screen novel OTULIN-, OTUB1- and OTUB2-interacting protein from human cDNA library is underway. [ABSTRACT FROM AUTHOR]

Published

2019

40. Scorpion Venom Gland Transcriptomics and Proteomics: An Overview

Author

Abdel-Rahman, Mohamed A., Quintero-Hernández, Veronica, Possani, Lourival D., Gopalakrishnakone, P., Editor-in-chief, and Calvete, Juan J., editor

Published

2016

41. Functional analysis and Characterization of Wound Responsive Genes from Potato (Solanum tuberosum L.)

Author

Amit, Kumar, Mukesh, Vaishali, Sengar, R.S., Singh, Rajendra, and Singh, S.K.

Published

2017

42. Scorpion Venom Gland Transcriptomics

Author

Rendón-Anaya, Martha, Camargos, Thalita S., Ortiz, Ernesto, Gopalakrishnakone, P., Editor-in-chief, Possani, Lourival D., editor, F. Schwartz, Elisabeth, editor, and Rodríguez de la Vega, Ricardo C., editor

Published

2015

43. Antimicrobial Peptides from Plants: A cDNA-Library Based Isolation, Purification, Characterization Approach and Elucidating Their Modes of Action

Author

Md. Samiul Islam, Gamarelanbia Mohamed, Shakil Ahmed Polash, Md. Amit Hasan, Razia Sultana, Noshin Saiara, and Wubei Dong

Subjects

antimicrobial peptides, cDNA library, Bacillus subtilis, AMP prediction, membrane interrupting peptides, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Even in a natural ecosystem, plants are continuously threatened by various microbial diseases. To save themselves from these diverse infections, plants build a robust, multilayered immune system through their natural chemical compounds. Among the several crucial bioactive compounds possessed by plants’ immune systems, antimicrobial peptides (AMPs) rank in the first tier. These AMPs are environmentally friendly, anti-pathogenic, and do not bring harm to humans. Antimicrobial peptides can be isolated in several ways, but recombinant protein production has become increasingly popular in recent years, with the Escherichia coli expression system being the most widely used. However, the efficacy of this expression system is compromised due to the difficulty of removing endotoxin from its system. Therefore, this review suggests a high-throughput cDNA library-based plant-derived AMP isolation technique using the Bacillus subtilis expression system. This method can be performed for large-scale screening of plant sources to classify unique or homologous AMPs for the agronomic and applied field of plant studies. Furthermore, this review also focuses on the efficacy of plant AMPs, which are dependent on their numerous modes of action and exceptional structural stability to function against a wide range of invaders. To conclude, the findings from this study will be useful in investigating how novel AMPs are distributed among plants and provide detailed guidelines for an effective screening strategy of AMPs.

Published

2021

44. Transcriptome analysis reveals the peptide toxins diversity of Macrothele palpator venom.

Author

Xiao X, Luo X, Huang C, Feng X, Wu M, Lu M, Kuang J, Peng S, Guo Y, Zhang Z, Hu Z, Zhou X, Chen M, and Liu Z

Subjects

Humans, Animals, Peptides genetics, Gene Expression Profiling, Gene Library, Expressed Sequence Tags, Spider Venoms genetics, Spiders genetics

Abstract

Spider venom is a large pharmacological repertoire of different bioactive peptide toxins. However, obtaining crude venom from some spiders is challenging. Thus, studying individual toxins through venom purification is a daunting task. In this study, we constructed the cDNA library and transcriptomic sequencing from the Macrothele palpator venom glands. Subsequently, 718 high-quality expressed sequence tags (ESTs) were identified, and grouped into three categories, including 449 toxin-like (62.53 %), 136 cellular component (18.94 %) and 133 non-matched (18.52 %) based on the gene function annotation. Additionally, 112 non-redundant toxin-like peptides were classified into 13 families (families A-M) based on their sequence homology and cysteine framework. Bioinformatics analysis revealed a high sequence similarity between families A-J and the toxins from Macrothele gigas in the NR database. In contrast, families K-M had a generally low sequence homology with known spider peptide toxins and unpredictable biological functions. Taken together, this study adds many new members to the spider toxin superfamily and provides a basis for identifying various potential biological tools in M. palpator venom., Competing Interests: Declaration of competing interest The authors declare no conflict of interest., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

45. Screening a Spliced Leader-Based Symbiodinium microadriaticum cDNA Library Using the Yeast-Two Hybrid System Reveals a Hemerythrin-Like Protein as a Putative SmicRACK1 Ligand

Author

Tania Islas-Flores, Edgardo Galán-Vásquez, and Marco A. Villanueva

Subjects

cDNA library, coral reefs, Hemerythrin-like protein, RACK1, spliced leader, Symbiodinium, Biology (General), QH301-705.5

Abstract

The dinoflagellate Symbiodiniaceae family plays a central role in the health of the coral reef ecosystem via the symbiosis that establishes with its inhabiting cnidarians and supports the host metabolism. In the last few decades, coral reefs have been threatened by pollution and rising temperatures which have led to coral loss. These events have raised interest in studying Symbiodiniaceae and their hosts; however, progress in understanding their metabolism, signal transduction pathways, and physiology in general, has been slow because dinoflagellates present peculiar characteristics. We took advantage of one of these peculiarities; namely, the post-transcriptional addition of a Dino Spliced Leader (Dino-SL) to the 5′ end of the nuclear mRNAs, and used it to generate cDNA libraries from Symbiodinium microadriaticum. We compared sequences from two Yeast-Two Hybrid System cDNA Libraries, one based on the Dino-SL sequence, and the other based on the SMART technology (Switching Mechanism at 5′ end of RNA Transcript) which exploits the template switching function of the reverse transcriptase. Upon comparison of the performance of both libraries, we obtained a significantly higher yield, number and length of sequences, number of transcripts, and better 5′ representation from the Dino-SL based library than from the SMART library. In addition, we confirmed that the cDNAs from the Dino-SL library were adequately expressed in the yeast cells used for the Yeast-Two Hybrid System which resulted in successful screening for putative SmicRACK1 ligands, which yielded a putative hemerythrin-like protein.

Published

2021

46. Molecular biology of mango (Mangifera indica L.) fruit ripening

Author

Zainal, Zamri

Subjects

572.8, Chaperonin 60 alpha, ACO, RABX, cDNA library

Published

1996

47. INTERACTION NETWORK OF TaRHA2b OF WHEAT (TRITICUM AESTIVUM L.) BASED ON HIGH-THROUGHPUT YEAST TWO-HYBRID SCREENING.

Author

LI, D. B., LYU, G. Z., JIANG, Y. M., NIU, H. B., WANG, X., and YIN, J.

Subjects

YEAST, FILTER paper, CROP improvement, ANTISENSE DNA, CELLULAR signal transduction, COLORS

Abstract

To explore the signal transduction pathway that TaRHA2b gene is involved in regulating, yeast two-hybrid system was used to screen and identify proteins interacting with TaRHA2b. The homogenized cDNA library was constructed from the embryo of mixed barley. The decoy protein vector pGBKT7- TaRHA2b was constructed and transformed into yeast AH109 cells for self-activation detection. Candidate positive clones were screened by one to one yeast co-transfection, SD/-Leu/-Trp and SD/-Leu/- Trp/-Ade/-His medium screening and β-galactosidase chromogenic reaction. The in vitro co-transfection and GST-pull down experiments were used for further verification. The homogenized cDNA library of the barley embryos with titer of 1.2 106 cfu/ml and storage capacity of 1.1 106 was successfully constructed. The inserted fragment size was between 1000-3000 bp. The plasmids of the cDNA library were extracted and sequenced on a large scale, and 5000 plasmids were obtained. The decoy vector without self-activation function was successfully constructed. The x-gal filter paper of eighty-four hybrid clones showed strong blue color and forty-nine pieces of effective sequence information were obtained. Eight of them were selected for co-transfection verification. YTH2450 was selected for GST-pull down verification. The results showed that they were positive hybrid clones. TaRHA2b interacted with YTH2450 and other proteins. The information of above genes could be used for genetic improvement of crops, further improving the adaptability of crops to the environment. [ABSTRACT FROM AUTHOR]

Published

2019

48. Construction of strains to identify novel factors for regulation of centromeric cohesion protection (CCP) and sister kinetochore mono-orientation (SKM).

Author

Bharati, Akhilendra Pratap and Ghosh, Santanu Kumar

Subjects

*MEIOSIS, *FUNCTIONAL genomics, *CHROMOSOME segregation, *COHESION, *GENETIC testing, *CHROMOSOMES

Abstract

Background: Meiosis-I is a unique type of chromosome segregation where each chromosome aligns and segregates from its homolog. The mechanism of meiosis I homolog separation in different eukaryotes depends on their centromere and kinetochore architecture which in turn relies mainly on two processes, first on a specialized four protein complex known as monopolin and second, the centromeric cohesion protection (CCP). However, in mammals the complex has not been identified. Furthermore, in budding yeast, there could be additional factors in this process which includes some meiosis specific and some non meiosis specific factors. Result: We constructed two strains. In the first strain we expressed Mam1 and Cdc5 which leads to sister kinetochore monoorientation (SKM) and in the second case we expressed Rec8 and Spo13 which enhanced CCP even in mitosis. The expression of these proteins in mitotically dividing cells caused co-orientation of the chromosomes, which lead to the cell death followed by miss-segregation of chromosomes. Then we utilized these strains to screen the cDNA libraries from yeast and mammals to identify the novel factors which participate in CCP and SKM. Finally, SGY4119 strain expressing Spo13 and Rec8 was transformed with pRS316 gal cDNA library and transformants were screened for lethality on galactose. We screened ~ 105 transformants colonies. Out of these ~ 3000 colonies were able to survive on galactose plate which was narrow down to 6 on the basis of desired phenotype. Conclusion: So far, meiosis specific kinetochore proteins have been identified only in two yeasts. Recently, in mammals a meiosis specific kinetochore protein (MEIKIN) has been identified with similar function. Till now a single protein in mammals and four proteins monopolin complex in budding yeast has been identified to coorient the centromere. Many more novel factors have to be identified yet. That is why we wished to device genetic screen using a functional genomics approach. Since the list of proteins already identified in yeast is not exhaustive as the circumstantial evidence suggests, we wish to use the same yeast strains to identify additional novel yeast proteins that may be involved in the execution of meiosis. [ABSTRACT FROM AUTHOR]

Published

2019

49. Construction of Suppression Subtractive Hybridization Library for Testis of Male Tilapia Under the Stress of Methomyl.

Author

Shunlong MENG, Tao LIU, Chao SONG, Cong ZHANG, Liping QIU, Jiazhang CHEN, and Pao XU

Subjects

*TILAPIA, *SERINE/THREONINE kinases, *TESTIS, *NUCLEIC acid hybridization, *RIBOSOMAL proteins, *PROTEIN kinases

Abstract

[Objectives] This study was conducted to construct forward and reserve libraries of suppression subtractive hybridization(SSH) in the testis of male tilapia under the stress of methomyl by using SSH technology. [Methods] Using male tilapia as the test animal, the forward and reserve libraries of SSH in the testis of tilapia under the stress of methomyl were constructed by using the SSH technology. [Results] 45 expressed sequence tags(ESTs) were obtained, and 25 expressed sequence tags were successfully noted, including 13 forward libraries and 12 reverse libraries. The genes with confirmed functions were classified into five types. Genes related to catalytic activity and cell characteristics were up-regulated, while genes related to structural molecule's activity and biological process were down-regulated. The expression amount of integrin β1 was up-regulated, while serine/threonine protein kinase pim-3, Ca2+-ATPase, Na+-K+-ATPase and ribosomal protein L22 were down-regulated. [Conclusions] The research results could lay a foundation for revealing the molecular mechanism of methomyl's reproductive toxicity to tilapia. [ABSTRACT FROM AUTHOR]

Published

2019

50. The Construction of Full-Length cDNA Library for Otodectes cynotis.

Author

Hu, Li, Zhao, Ya-e, Niu, Dong-ling, Yang, Rui, and Zeng, Ji-hui

Subjects

ANTISENSE DNA, NUCLEOTIDE sequence, NON-coding RNA

Abstract

Background: Otodectes cynotis (Hering, 1838) is the pathogen of otodectic mange distributed worldwide. The mite mainly infests carnivores and, sometimes, humans. However, due to the lack of cDNA library, research on its pathogenesis has been challenging. Methods: To solve this problem, the present study first sampled O. cynotis mites from an infested cat from Xi'an, China, for RNA extraction. Then, the full-length cDNA library was constructed using the SMART technique. Finally, positive clones > 500 bp and Hsc70-5 gene fragment specifically amplified from the cDNA library were sequenced and analyzed to verify the library's reliability. Results: Results showed that RNA extracted from 300 mites had good quality with a concentration of 149 ng/μl and OD260/OD280 of 1.99. The library satisfied the quality standard of a good library with a titer of 5.02 × 105 PFU/ml and a combination rate of 97.61%. In addition, clone 4 and Hsc70-5 showed 98.38% and 99.72% identity with Ef1-α and Hsc70-5 gene sequences of O. cynotis in GenBank, respectively. Conclusion: The cDNA library of O. cynotis constructed here was successful and reliable, creating the basis for research on RNA sequencing and functional genes of O. cynotis. [ABSTRACT FROM AUTHOR]

Published

2019