Your search keyword '"DNA, Complementary metabolism"' showing total 11,665 results

1. Distinct and overlapping RNA determinants for binding and target-primed reverse transcription by Bombyx mori R2 retrotransposon protein.

Author

Rodríguez-Vargas A and Collins K

Subjects

Animals, 3' Untranslated Regions, Binding Sites, DNA, Complementary genetics, DNA, Complementary metabolism, Insect Proteins genetics, Insect Proteins metabolism, Protein Binding, RNA-Binding Proteins metabolism, RNA-Binding Proteins genetics, RNA-Directed DNA Polymerase metabolism, RNA-Directed DNA Polymerase genetics, Bombyx genetics, Bombyx metabolism, Retroelements genetics, Reverse Transcription, RNA metabolism, RNA genetics, RNA chemistry

Abstract

Eukaryotic retrotransposons encode a reverse transcriptase that binds RNA to template DNA synthesis. The ancestral non-long terminal repeat (non-LTR) retrotransposons encode a protein that performs target-primed reverse transcription (TPRT), in which the nicked genomic target site initiates complementary DNA (cDNA) synthesis directly into the genome. The best understood model system for biochemical studies of TPRT is the R2 protein from the silk moth Bombyx mori. The R2 protein selectively binds the 3' untranslated region of its encoding RNA as template for DNA insertion to its target site in 28S ribosomal DNA. Here, binding and TPRT assays define RNA contributions to RNA-protein interaction, template use for TPRT and the fidelity of template positioning for TPRT cDNA synthesis. We quantify both sequence and structure contributions to protein-RNA interaction. RNA determinants of binding affinity overlap but are not equivalent to RNA features required for TPRT and its fidelity of template positioning for full-length TPRT cDNA synthesis. Additionally, we show that a previously implicated RNA-binding protein surface of R2 protein makes RNA binding affinity dependent on the presence of two stem-loops. Our findings inform evolutionary relationships across R2 retrotransposon RNAs and are a step toward understanding the mechanism and template specificity of non-LTR retrotransposon mobility., (© The Author(s) 2024. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Published

2024

2. Functional relation of agouti signaling proteins (ASIPs) to pigmentation and color change in the starry flounder, Platichthys stellatus.

Author

Kang DY and Kim HC

Subjects

Animals, DNA, Complementary metabolism, Pigmentation genetics, Flounder metabolism, Dasyproctidae, Flatfishes genetics

Abstract

We investigated the involvement of agouti-signaling proteins (ASIPs) in morphological pigmentation and physiological color change in flatfishes. We isolated ASIP1 and 2 mRNAs from the skin of starry flounder (Platichthys stellatus), and compared their amino acid (aa) structures to those of other animals. Then, we examined the mRNA expression levels of two ASIPs (Sf-ASIPs) in the pigmented ocular body and in the unpigmented blind body, as well as in the ordinary skin and in albino skin, in flatfishes. To investigate the role of Sf-ASIPs in physiological color change (color camouflage), we compared the expression of the two genes in two background colors (dark-green and white). Sf-ASIP1 cDNA had a 375-bp open reading frame (ORF) that encoded a protein consisting of 125 aa residues, and Sf-ASIP2 cDNA had a 402-bp ORF that encoded a protein consisting of 132 aa residues. RT-PCR revealed that the strongest Sf-ASIP1 and Sf-ASIP2 expression levels were observed in the eye and blind-skin, respectively. In Sf-ASIP1, the gene expression did not differ between the ocular-side skin and blind-side skin, nor between ordinary skin and abnormal skin of the fish. However, in Sf-ASIP2, the expression level was significantly higher in blind-side skin, compared to ocular-side skin, suggesting that the ASIP2 gene is related to the countershading body pigment pattern of the fish. In addition, the Sf-ASIP2 gene expression level was lower in the pigmented spot regions than in the unpigmented spot regions of the malpigmented pseudo-albino skins on the ocular side, implying that ASIP2 is responsible for the ocular-side pseudo-albino. Additionally, ASIP2 gene expression in the blind-side skin of ordinary fish was enhanced by a white tank, implying that a bright background color could inhibit hypermelanosis in the blind-side skin of cultured flounder by increasing the activity of the Sf-ASIP2 gene. However, we did not find any relationship of ASIPs with camouflage color changes. In conclusion, the ASIP2 gene is related to the morphological pigmentation (countershading and malpigmentation) of the skin in starry flounder, but not with physiological color changes (color camouflage) in the ocular-side skin., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier Inc.)

Published

2024

3. RT-qPCR based quantitative analysis of ARO and ADH genes in Saccharomyces cerevisiae and Metschnikowia pulcherrima strains growth white grape juice.

Author

Muyanlı EB and Yılmaz R

Subjects

DNA, Complementary metabolism, Transaminases genetics, Fermentation, RNA metabolism, Saccharomyces cerevisiae metabolism, Vitis genetics, Vitis metabolism, Metschnikowia

Abstract

Background: Yeast biosynthesizes fusel alcohols in fermentation through amino acid catabolism via the Ehrlich pathway. ARO8 and ARO9 genes are involved in the first step of the Ehrlich pathway, while ADH2 and ADH5 genes are involved in the last step. In this study, we describe RT-qPCR methods to determine the gene expression level of genes (ARO8, ARO9, ADH2, ADH5) found in Saccharomyces cerevisiae (Sc) and Metschnikowia pulcherrima (Mp) strains growth pasteurized white grape juice., Methods and Results: We used RNA extraction and cDNA synthesis protocols. The RT-qPCR efficiency of primer pairs was evaluated by generating a standard curve through serial dilution of yeast-derived cDNA. Method performance criteria were determined for each RT-qPCR assay. Then, we evaluated the gene expression levels of the four genes in all samples. RNA extraction and cDNA synthesis from yeast samples demonstrated the method's capability to generate high-yield, high-purity nucleic acids, supporting further RT-qPCR analysis. The highest normalized gene expression levels of ARO8 and ARO9 were observed in SC1, SC4, and SC5 samples. No significant difference in ADH2 gene expression among Mp strains was observed during the examination of ADH2 and ADH5 genes (p < 0.05). We observed no expression of the ADH5 gene in Mp strains except MP6 strain. The expression of ADH2 and ADH5 genes was higher in Sc strains compared to Mp strains., Conclusions: The results suggest that the proposed RT-qPCR methods can measure gene expression of ARO8, ARO9, ADH2, and ADH5 in Sc and Mp strains growing in pasteurized white grape juice., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

4. Expression characteristics of the cyp19a1b aromatase gene and its response to 17β-estradiol treatment in largemouth bass (Micropterus salmoides).

Author

Zhang D, Tian T, Han L, Du J, Zhu T, Lei C, Song H, and Li S

Subjects

Male, Female, Animals, Aromatase genetics, Aromatase metabolism, DNA, Complementary genetics, DNA, Complementary metabolism, Estradiol pharmacology, Estradiol metabolism, Ovary metabolism, Bass genetics, Bass metabolism

Abstract

To investigate the regulatory role of the cyp19a1b aromatase gene in the sexual differentiation of largemouth bass (Micropterus salmoides, LMB), we obtained the full-length cDNA sequence of cyp19a1b using rapid amplification of cDNA ends technique. Tissue expression characteristics and feedback with 17-β-estradiol (E 2 ) were determined using quantitative real-time PCR (qRT-PCR), while gonad development was assessed through histological section observations. The cDNA sequence of LMB cyp19a1b was found to be1950 base pairs (bp) in length, including a 5' untranslated region of 145 bp, a 3' untranslated region of 278 bp, and an open reading frame encoding a protein consisting of 1527 bp that encoded 508 amino acids. The qRT-PCR results indicated that cyp19a1b abundantly expressed in the brain, followed by the gonads, and its expression in the ovaries was significantly higher than that observed in the testes (P < 0.05). After feeding fish with E 2 for 30 days, the expression of cyp19a1b in the pseudo-female gonads (XY-F) was significantly higher than that in males (XY-M) (P < 0.05), whereas expression did not differ significantly between XX-F and XY-F fish (P > 0.05). Although the expression of cyp19a1b in XY-F and XX-F fish was not significantly different after 60 days (P>0.05), both exhibited significantly higher levels than that of XY-M fish (P<0.05). Histological sections analysis showed the presence of oogonia in both XY-F and XX-F fish at 30 days, while spermatogonia were observed in XY-M fish. At 60 days, primary oocytes were abundantly observed in both XY-F and XX-F fish, while a few spermatogonia were visible in XY-M fish. At 90 days, the histological sections' results showed that a large number of oocytes were visible in XY-F and XX-F fish. Additionally, the gonads of XY-M fish contained numerous spermatocytes. These results suggest that cyp19a1b plays a pivotal role in the development of ovaries and nervous system development in LMB., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

5. Identification of a Tetrahymena species infecting guppies, pathology, and expression of beta-tubulin during infection.

Author

Jiang M, Zhou C, Wang S, Liu L, Zhang S, Wang L, and Pan X

Subjects

Animals, Tubulin genetics, Tubulin metabolism, DNA, Complementary metabolism, RNA, Messenger metabolism, Tetrahymena genetics, Poecilia genetics, Tetrahymena pyriformis genetics, Tetrahymena pyriformis metabolism

Abstract

Tetrahymenosis is caused by the ciliated protozoan Tetrahymena and is responsible for serious economic losses to the aquaculture industry worldwide. However, information regarding the molecular mechanism leading to tetrahymenosis is limited. In previous transcriptome sequencing work, it was found that one of the two β-tubulin genes in T. pyriformis was significantly expressed in infected fish, we speculated that β-tubulin is involved in T. pyriformis infecting fish. Herein, the potential biological function of the β-tubulin gene in Tetrahymena species when establishing infection in guppies was investigated by cloning the full-length cDNA of this T. pyriformis β-tubulin (BTU1) gene. The full-length cDNA of T. pyriformis BTU1 gene was 1873 bp, and the ORF occupied 1134 bp, whereas 5' UTR 434 bp, and 3' UTR 305 bp whose poly (A) tail contained 12 bases. The predicted protein encoded by T. pyriformis BTU1 gene had a calculated molecular weight of 42.26 kDa and pI of 4.48. Moreover, secondary structure analysis and tertiary structure prediction of BTU1 protein were also conducted. In addition, morphology, infraciliature, phylogeny, and histopathology of T. pyriformis isolated from guppies from a fish market in Harbin were also investigated. Furthermore, qRT-PCR analysis and experimental infection assays indicated that the expression of BTU1 gene resulted in efficient cell proliferation during infection. Collectively, our data revealed that BTU1 is a key gene involved in T. pyriformis infection in guppies, and the findings discussed herein provide valuable insights for future studies on tetrahymenosis., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

6. Single-Molecule Poly(A) Tail Sequencing (SM-PATseq) Using the PacBio Platform.

Author

Iben JR, Li T, Mattijssen S, and Maraia RJ

Subjects

DNA, Complementary genetics, DNA, Complementary metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Sequence Analysis, RNA methods, Nucleotides, Polyadenylation, Poly A genetics, Poly A metabolism, Transcriptome, High-Throughput Nucleotide Sequencing methods

Abstract

The polyadenylation of the 3' ends of messenger RNAs is an important regulator of stability and translation. We developed the single-molecule poly(A) tail sequencing method, SM-PATseq, to assay tail lengths of the whole transcriptome at nucleotide resolution using long-read sequencing. This method generates cDNA using an oligo-dT 3' splint adaptor ligation to prime first-strand cDNA synthesis, followed by random hexamer priming for second-strand synthesis. By directly sequencing the cDNA on long-read platforms, we can resolve tail lengths at nucleotide resolution, identify non-A bases within the tail, and quantify transcript abundance analogous to traditional RNAseq methods. Here, we discuss the method for generating, sequencing, and primary analysis of poly(A) tail data from total RNA using the Pacific Biosciences Sequel platform., (© 2024. This is a U.S. government work and not under copyright protection in the U.S.; foreign copyright protection may apply.)

Published

2024

7. Molecular cloning and tissue distribution of glucokinase and glucose-6-phosphatase catalytic subunit paralogs in largemouth bass Micropterus salmoides: Regulation by dietary starch levels and a glucose load.

Author

Xia R, Liu HK, Liu XF, Deng X, Qin CJ, He YF, Lin SM, and Chen YJ

Subjects

Animals, Glucose metabolism, Glucose-6-Phosphatase genetics, Glucose-6-Phosphatase metabolism, Tissue Distribution, DNA, Complementary genetics, DNA, Complementary metabolism, Catalytic Domain, Dietary Carbohydrates metabolism, Starch metabolism, RNA, Messenger metabolism, Cloning, Molecular, Glucokinase genetics, Glucokinase metabolism, Bass physiology

Abstract

The dysregulation of glucose-G6P (glucose-6-phosphate) interconversion is thought to be one of the main reasons for the low glucose disposal of carnivorous fish, but is not yet well understood in largemouth bass Micropterus salmoides (LMB). In this study, the full length cDNA sequences of genes encoding glucokinase (Gck, catalyzing glucose phosphorylation) and glucose-6-phosphatase catalytic subunit (G6pc, catalyzing glucose dephosphorylation) were cloned by the RACE method from the liver of LMB. Subsequently, the distribution of g6pc and gck as well as their transcriptional regulation by dietary starch levels and a glucose load were investigated. Only one gck gene was identified, while the tandem duplication of g6pca.1 gene was named as g6pca.2 in LMB. The full cDNA sequences of g6pca.1, g6pca.2 and gck in LMB were 1585, 1813 and 2115 bp in length, encoding 478, 352 and 359 amino acids, respectively. Gck was predicted to contain two hexokinase domains, an ATP-binding domain and multiple functional sites, while G6pca.1 and G6pca.2 contained nine transmembrane helices, a PAP2 (type-2 phosphatidic acid phosphatase) domain and multiple functional amino acid sites. Both g6pca.1 and g6pca.2 were predominantly distributed in the liver and to some extent in the intraperitoneal fat, intestine and pyloric caeca, while gck was mainly transcribed in the liver and to some extent in the heart, intestine and brain. Both feeding a high starch diet and a glucose load stimulated the mRNA expression of gck in the liver of LMB. An increase of dietary starch from 9% to 14% down-regulated the transcription of g6pca.1 in the liver of LMB. However, both the mRNA levels of hepatic g6pca.1 and g6pca.2 were sharply up-regulated in LMB during 1-3 h after a glucose load. Overall, the results of this study suggested that the functions of G6pc (G6pca.1 and G6pca.2) and Gck in LMB were highly conserved in evolution. Though hepatic glucose-G6P interconversion was well regulated at the transcript level in LMB fed high starch diets, a futile cycle between glucose and G6P was induced in the liver after a glucose load., Competing Interests: Declaration of Competing Interest The authors declare that there are no competing financial interests., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2024

8. Development of T cell receptor-engineered T cells targeting the sarcoma-associated antigen papillomavirus binding factor.

Author

Hamada S, Tsukahara T, Watanabe Y, Murata K, Mizue Y, Kubo T, Kanaseki T, Hirohashi Y, Emori M, Nakatsugawa M, Teramoto A, Yamashita T, and Torigoe T

Subjects

Animals, Mice, CD8-Positive T-Lymphocytes, HLA-A24 Antigen, DNA, Complementary metabolism, Ki-67 Antigen metabolism, T-Lymphocytes, Cytotoxic, Peptides, Epitopes metabolism, Receptors, Antigen, T-Cell, Osteosarcoma genetics, Bone Neoplasms metabolism

Abstract

We previously identified papillomavirus binding factor (PBF) as an osteosarcoma antigen recognized by an autologous cytotoxic T lymphocyte clone. Vaccination with PBF-derived peptide presented by HLA-A24 (PBF peptide) elicited strong immune responses. In the present study, we generated T cell receptor-engineered T cells (TCR-T cells) directed against the PBF peptide (PBF TCR-T cells). PBF TCR was successfully transduced into T cells and detected using HLA-A*24:02/PBF peptide tetramer. PBF TCR-T cells generated from a healthy donor were highly expanded and recognized T2-A24 cells pulsed with PBF peptide, HLA-A24 + 293T cells transfected with PBF cDNA, and sarcoma cell lines. To establish an adoptive cell therapy model, we modified the PBF TCR by replacing both α and β constant regions with those of mice (hybrid PBF TCR). Hybrid PBF TCR-T cells also showed reactivity against T2-A24 cells pulsed with PBF peptide and to HLA-A24 + 293T cells transfected with various lengths of PBF cDNA including the PBF peptide sequence. Subsequently, we generated target cell lines highly expressing PBF (MFH03-PBF [short] epitope [+]) containing PBF peptide with in vivo tumorigenicity. Hybrid PBF TCR-T cells exhibited antitumor effects compared with mock T cells in NSG mice xenografted with MFH03-PBF (short) epitope (+) cells. CD45 + T cells significantly infiltrated xenografted tumors only in the hybrid PBF TCR T cell group and most of these cells were CD8-positive. CD8 + T cells also showed Ki-67 expression and surrounded the CD8-negative tumor cells expressing Ki-67. These findings suggest that PBF TCR-T cell therapy might be a candidate immunotherapy for sarcoma highly expressing PBF., (© 2023 The Authors. Cancer Science published by John Wiley & Sons Australia, Ltd on behalf of Japanese Cancer Association.)

Published

2024

9. Molecular cloning and expression analysis of rad51 gene associated with gametogenesis in Chinese soft-shell turtle (Pelodiscus sinensis).

Author

Xu J, Guo Y, Tan Z, Ban W, Tian J, Chen K, and Xu H

Subjects

Animals, Female, Male, Cloning, Molecular, DNA, Complementary metabolism, Gametogenesis, Phylogeny, RNA, Messenger analysis, Spermatogonia metabolism, Testis metabolism, Turtles genetics

Abstract

Rad51 is a recA-like recombinase that plays a crucial role in repairing DNA double-strand breaks through homologous recombination during mitosis and meiosis in mammals and other organisms. However, its role in reptiles remains largely unclear. In this study, we aimed to investigate the physiological role of the rad51 gene in reptiles, particularly in Pelodiscus sinensis. Firstly, the cDNA of rad51 gene was cloned and analyzed in P. sinensis. The cloned cDNA contained an open reading frame (ORF) of 1020 bp and encodeed a peptide of 339 amino acids. The multiple alignments and phylogenetic tree analysis of Rad51 showed that P. sinensis shares the high identity with Chelonia mydas (97.95%) and Mus musculus (95.89%). Secondly, reverse transcription-polymerase chain reaction (RT-PCR) and real-time quantitative polymerase chain reaction (RT-qPCR) analysis showed that rad51 mRNA was highly expressed in both ovary and testis, while being weak in the somatic tissues examined in this study. Furthermore, chemical in situ hybridization (CISH) was performed to examine the expression profile of rad51 mRNA in germ cells at different stages. In the testis, rad51 mRNA expression was found to be stronger in the germ cells at early stages, specifically in spermatogonia and spermatocytes, but it was undetectable in spermatids. In the ovary, rad51 mRNA exhibited a uniform distribution in the cytoplasm of oocytes at early stages. The signal intensity of rad51 mRNA was highest in primary oocytes and gradually declined during oogenesis as the oocytes developed. These results suggest that rad51 plays a vital role in the development of germ cells, particularly during the early stages of gametogenesis in P. sinensis. The dynamic expression pattern of rad51 mRNA provides insights into the mechanisms underlying germ cell development and differentiation into gametes in turtles, even in reptiles., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier B.V.)

Published

2023

10. Frequency and molecular basis of CD36 deficiency among platelet donors in Kunming, China.

Author

Lyu Q, Peng M, Chen Q, Ji X, Wang Z, Li Q, Zhang Z, Luo Z, Yin Y, Su P, Santoso S, and Wang J

Subjects

Humans, DNA, Complementary metabolism, Mutation, Blood Platelets metabolism, Blood Platelet Disorders genetics

Abstract

CD36 is a multifunctional receptor expressed on the surface of many cell types. Among healthy individuals, CD36 may be absent on platelets and monocytes (type I deficiency) or platelets alone (type II deficiency). However, the exact molecular mechanisms underlying CD36 deficiency remain unclear. In this study, we aimed to identify individuals with CD36 deficiency and investigate the molecular basis underlying it. Blood samples were collected from platelet donors at Kunming Blood Center. Platelets and monocytes were isolated and CD36-expression levels were analyzed using flow cytometry. DNA from whole blood and mRNA isolated from monocytes and platelets of individuals with CD36 deficiency were analyzed using polymerase chain reaction (PCR) testing. The PCR products were cloned and sequenced. Among the 418 blood donors,7 (1.68%) were CD36 deficient: 1 (0.24%) with type I deficiency and 6(1.44%) with type II deficiency. Six heterozygous mutations occurred, including c.268C>T (in type I individuals), c.120 + 1 G>T, c.268C>T, c.329&#95;330 del /AC, c.1156 C>T, c.1163A>C, and c.1228&#95;1239 del /ATTGTGCCTATT (in type II individuals). Mutations were not detected in one type II individual . At the cDNA level, only mutant, but not wild-type, transcripts were detected in the platelets and monocytes of type I individual. In type II individuals, only mutant transcripts were found in platelets, whereas monocytes possessed wild-type and mutant transcripts. Interestingly, only alternative splicing transcripts were observed in the individual without mutation. We report the incidence rates of type I and II CD36 deficiencies among platelet donors in Kunming. Molecular genetic analyses of DNA and cDNA demonstrated that homozygous mutations on the cDNA level in platelets and monocytes or platelets alone identified type I and II deficiencies, respectively. Furthermore, alternatively spliced products also potentially contribute to the mechanism of CD36 deficiency.

Published

2023

11. Enhanced expression of the human Survival motor neuron 1 gene from a codon-optimised cDNA transgene in vitro and in vivo.

Author

Nafchi NAM, Chilcott EM, Brown S, Fuller HR, Bowerman M, and Yáñez-Muñoz RJ

Subjects

Animals, Humans, Infant, Newborn, Mice, Disease Models, Animal, DNA, Complementary metabolism, Motor Neurons metabolism, Transcription Factors genetics, Transgenes, Cytomegalovirus Infections genetics, Cytomegalovirus Infections metabolism, Muscular Atrophy, Spinal genetics, Muscular Atrophy, Spinal therapy, Survival of Motor Neuron 1 Protein genetics, Survival of Motor Neuron 1 Protein metabolism

Abstract

Spinal muscular atrophy (SMA) is a neuromuscular disease particularly characterised by degeneration of ventral motor neurons. Survival motor neuron (SMN) 1 gene mutations cause SMA, and gene addition strategies to replace the faulty SMN1 copy are a therapeutic option. We have developed a novel, codon-optimised hSMN1 transgene and produced integration-proficient and integration-deficient lentiviral vectors with cytomegalovirus (CMV), human synapsin (hSYN) or human phosphoglycerate kinase (hPGK) promoters to determine the optimal expression cassette configuration. Integrating, CMV-driven and codon-optimised hSMN1 lentiviral vectors resulted in the highest production of functional SMN protein in vitro. Integration-deficient lentiviral vectors also led to significant expression of the optimised transgene and are expected to be safer than integrating vectors. Lentiviral delivery in culture led to activation of the DNA damage response, in particular elevating levels of phosphorylated ataxia telangiectasia mutated (pATM) and γH2AX, but the optimised hSMN1 transgene showed some protective effects. Neonatal delivery of adeno-associated viral vector (AAV9) vector encoding the optimised transgene to the Smn 2B/- mouse model of SMA resulted in a significant increase of SMN protein levels in liver and spinal cord. This work shows the potential of a novel codon-optimised hSMN1 transgene as a therapeutic strategy for SMA., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2023

12. Cloning, expression analysis and localization of DAZL gene implicated in germ cell development of male Hezuo pig.

Author

Tang Y, Zhang B, Shi H, Yan Z, Wang P, Yang Q, Huang X, Li J, Wang Z, and Gun S

Subjects

Male, Animals, Swine genetics, DNA, Complementary genetics, DNA, Complementary metabolism, Spermatozoa, Cloning, Molecular, Mammals genetics, Testis physiology, Spermatogenesis genetics

Abstract

Deleted in azoospermia-like ( DAZL ) is essential for mammalian testicular function and spermatogenesis. To explore the molecular characterization, expression patterns, and cellular localization of the DAZL in Hezuo pig testes, testicular tissue was isolated from Hezuo pig at five development stages including 30 days old (30 d), 90 days old (90 d), 120 days old (120 d), 180 days old (180 d), and 240 days old (240 d). DAZL cDNA was first cloned using the RT-PCR method, and its molecular characterization was analyzed using relevant bioinformatics software. Subsequently, the expression patterns and cellular localization of DAZL were evaluated using quantitative real-time PCR (qRT-PCR), Western blot, and immunohistochemistry. The cloning and sequence analysis showed that the Hezuo pig DAZL cDNA fragment contained 888 bp open reading frame (ORF) capable of encoding 295 amino acid residues and exhibited high identities with some other mammals. The qRT-PCR and Western blot results indicated that DAZL was specifically expressed in Hezuo pig testes, and DAZL levels of both mRNA and protein were expressed at all five reproductive stages of Hezuo pig testes, with extremely significant higher expression levels in 90 d, 120 d, 180 d, and 240 d than those in 30 d ( p  < 0.01). Additionally, immunohistochemistry results revealed that DAZL protein was mainly localized in gonocytes at 30 d testes, primary spermatocytes, and spermatozoon at other developmental stages, and Leydig cells throughout five development stages. Together, these results suggested that DAZL may play an important role by regulating the proliferation or differentiation of gonocytes, development of primary spermatocytes and spermatozoon, and functional maintenance of Leydig cells in testicular development and spermatogenesis of Hezuo pig. Nevertheless, the specific regulatory mechanisms underlying these phenomena still requires further investigated and verified.

Published

2023

13. An Adapted GeneSwitch Toolkit for Comparable Cellular and Animal Models: A Proof of Concept in Modeling Charcot-Marie-Tooth Neuropathy.

Author

Morant L, Petrovic-Erfurth ML, and Jordanova A

Subjects

Animals, DNA, Complementary metabolism, Drosophila genetics, Mutation, Neurons metabolism, Disease Models, Animal, Mammals genetics, Charcot-Marie-Tooth Disease genetics, Charcot-Marie-Tooth Disease metabolism, Tyrosine-tRNA Ligase metabolism

Abstract

Investigating the impact of disease-causing mutations, their affected pathways, and/or potential therapeutic strategies using disease modeling often requires the generation of different in vivo and in cellulo models. To date, several approaches have been established to induce transgene expression in a controlled manner in different model systems. Several rounds of subcloning are, however, required, depending on the model organism used, thus bringing labor-intensive experiments into the technical approach and analysis comparison. The GeneSwitch™ technology is an adapted version of the classical UAS-GAL4 inducible system, allowing the spatial and temporal modulation of transgene expression. It consists of three components: a plasmid encoding for the chimeric regulatory pSwitch protein, Mifepristone as an inducer, and an inducible plasmid. While the pSwitch-containing first plasmid can be used both in vivo and in cellulo, the inducible second plasmid can only be used in cellulo. This requires a specific subcloning strategy of the inducible plasmid tailored to the model organism used. To avoid this step and unify gene expression in the transgenic models generated, we replaced the backbone vector with standard pUAS-attB plasmid for both plasmids containing either the chimeric GeneSwitch™ cDNA sequence or the transgene cDNA sequence. We optimized this adapted system to regulate transgene expression in several mammalian cell lines. Moreover, we took advantage of this new system to generate unified cellular and fruit fly models for YARS1-induced Charco-Marie-Tooth neuropathy (CMT). These new models displayed the expected CMT-like phenotypes. In the N2a neuroblastoma cells expressing YARS1 transgenes, we observed the typical "teardrop" distribution of the synthetase that was perturbed when expressing the YARS1 CMT mutation. In flies, the ubiquitous expression of YARS1 CMT induced dose-dependent developmental lethality and pan-neuronal expression caused locomotor deficit, while expression of the wild-type allele was harmless. Our proof-of-concept disease modeling studies support the efficacy of the adapted transgenesis system as a powerful tool allowing the design of studies with optimal data comparability.

Published

2023

14. Identification of Bona Fide RNA Editing Sites: History, Challenges, and Opportunities.

Author

Tan MH

Subjects

Humans, DNA, Complementary genetics, DNA, Complementary metabolism, Inosine metabolism, Guanosine metabolism, RNA Editing, RNA, Double-Stranded

Abstract

Adenosine-to-inosine (A-to-I) RNA editing, catalyzed by the adenosine deaminase acting on the RNA (ADAR) family of enzymes of which there are three members (ADAR1, ADAR2, and ADAR3), is a major gene regulatory mechanism that diversifies the transcriptome. It is widespread in many metazoans, including humans. As inosine is interpreted by cellular machineries mainly as guanosine, A-to-I editing effectively gives A-to-G nucleotide changes. Depending on its location, an editing event can generate new protein isoforms or influence other RNA processing pathways. Researchers have found that ADAR-mediated editing performs diverse functions. For example, it enables living organisms such as cephalopods to adapt rapidly to fluctuating environmental conditions such as water temperature. In development, the loss of ADAR1 is embryonically lethal partly because endogenous double-stranded RNAs (dsRNAs) are no longer marked by inosines, which signal "self", and thus cause the melanoma differentiation-associated protein 5 (MDA5) sensor to trigger a deleterious interferon response. Hence, ADAR1 plays a key role in preventing aberrant activation of the innate immune system. Furthermore, ADAR enzymes have been implicated in myriad human diseases. Intriguingly, some cancer cells are known to exploit ADAR1 activity to dodge immune responses. However, the exact identities of immunogenic RNAs in different biological contexts have remained elusive. Consequently, there is tremendous interest in identifying inosine-containing RNAs in the cell.The identification of A-to-I RNA editing sites is dependent on the sequencing of nucleic acids. Technological and algorithmic advancements over the past decades have revolutionized the way editing events are detected. At the beginning, the discovery of editing sites relies on Sanger sequencing, a first-generation technology. Both RNA, which is reverse transcribed into complementary DNA (cDNA), and genomic DNA (gDNA) from the same source are analyzed. After sequence alignment, one would require an adenosine to be present in the genome but a guanosine to be detected in the RNA sample for a position to be declared as an editing site. However, an issue with Sanger sequencing is its low throughput. Subsequently, Illumina sequencing, a second-generation technology, was invented. By permitting the simultaneous interrogation of millions of molecules, it enables many editing sites to be identified rapidly. However, a key challenge is that the Illumina platform produces short sequencing reads that can be difficult to map accurately. To tackle the challenge, we and others developed computational workflows with a series of filters to discard sites that are likely to be false positives. When Illumina sequencing data sets are properly analyzed, A-to-G variants should emerge as the most dominant mismatch type. Moreover, the quantitative nature of the data allows us to build a comprehensive atlas of editing-level measurements across different biological contexts, providing deep insights into the spatiotemporal dynamics of RNA editing. However, difficulties remain in identifying true A-to-I editing sites in short protein-coding exons or in organisms and diseases where DNA mutations and genomic polymorphisms are prevalent and mostly unknown. Nanopore sequencing, a third-generation technology, promises to address the difficulties, as it allows native RNAs to be sequenced without conversion to cDNA, preserving base modifications that can be directly detected through machine learning. We recently demonstrated that nanopore sequencing could be used to identify A-to-I editing sites in native RNA directly. Although further work is needed to enhance the detection accuracy in single molecules from fewer cells, the nanopore technology holds the potential to revolutionize epitranscriptomic studies.

Published

2023

15. Cloning and Expression Analysis of Onion (Allium cepa L.) MADS-Box Genes and Regulation Mechanism of Cytoplasmic Male Sterility.

Author

Lou H, Huang Y, Zhu Z, and Xu Q

Subjects

Phylogeny, DNA, Complementary metabolism, Plant Infertility genetics, Plant Proteins genetics, Plant Proteins metabolism, Transcription Factors genetics, Flowers genetics, Flowers metabolism, Cloning, Molecular, Gene Expression Regulation, Plant, Onions genetics, Onions metabolism, MADS Domain Proteins genetics, MADS Domain Proteins metabolism

Abstract

Flower organ development is one of the most important processes in plant life. However, onion CMS (cytoplasmic male sterility) shows an abnormal development of floral organs. The regulation of MADS-box transcription factors is important for flower development. To further understand the role of MADS-box transcription factors in the regulation of cytoplasmic male sterility onions. We cloned the full-length cDNA of five MADS-box transcription factors from the flowers of onion using RACE (rapid amplification of cDNA ends) technology. We used bioinformatics methods for sequence analysis and phylogenetic analysis. Real-time quantitative PCR was used to detect the expression patterns of these genes in different onion organs. The relative expression levels of five flower development genes were compared in CMS onions and wild onions. The results showed that the full-length cDNA sequences of the cloned MADS-box genes AcFUL, AcDEF, AcPI, AcAG, and AcSEP3 belonged to A, B, C, and E MADS-box genes, respectively. A phylogenetic tree construction analysis was performed on its sequence. Analysis of MADS-box gene expression in wild onion and CMS onion showed that the formation of CMS onion was caused by down-regulation of AcDEF, AcPI, and AcAG gene expression, up-regulation of AcSEP3 gene expression, and no correlation with AcFUL gene expression. This work laid the foundation for further study of the molecular mechanism of onion flower development and the molecular mechanism of CMS onion male sterility., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

16. Dendritic cells infected with recombinant adenoviral vector encoding mouse fibroblast activation protein-α and human livin α exert an antitumor effect against Lewis lung carcinoma in mice.

Author

Ye Z, Pan J, Yin Z, Wang S, Li Y, Cai X, Zheng H, and Cao Z

Subjects

Animals, Humans, Mice, Dendritic Cells, DNA, Complementary metabolism, Endopeptidases genetics, Endopeptidases metabolism, Carcinoma, Lewis Lung genetics, Carcinoma, Lewis Lung therapy

Abstract

Background: Fibroblast activation protein-α (FAP) and livin α are considered as cancer-associated fibroblasts (CAFs) and tumor-specific targets, respectively, for immunogenic tumor vaccines. This study is designed to decipher the antitumor effect of double-gene modified dendritic cells (DCs) on Lewis lung carcinoma (LLC)., Methods: By encoding mouse FAP cDNA and human livin α (i.e., hlivin α) cDNA into recombinant adenoviral vector (rAd), rAd-FAP, rAd-hlivin α, and rAd-FAP/hlivin α were constructed, which were then transduced into mouse DCs. LLC-bearinig mice were immunized with the infected DCs (5 × 10 5 cells/mouse), followed by calculation of tumor volume and survival rate. The identification of CAFs from mouse LLC as well as the determination on expressions of FAP and livin α, was accomplished by western blot. Cytotoxic T lymphocyte assay was harnessed to assess the effect of the infected DCs on inducing splenic lymphocytes to lyse CAFs., Results: DCs were successfully transduced with rAd-FAP/hlivin α in vitro. FAP was highly expressed in CAFs. CAFs were positive for α-SMA and negative for CD45 and CD31. Livin α level was upregulated in mouse LLC. Immunization with rAd-FAP/hlivin α-transduced DCs suppressed LLC volume and improved the survival of tumor-bearing mice. Immunization with rAd-FAP/hlivin α-transduced DCs enhanced the cytotoxic effect of splenic lymphocytes on LLC tumor-derived CAFs., Conclusion: Injection with rAd-FAP/hlivin α-transduced DCs promotes immune-enhanced tumor microenvironment by decreasing CAFs and suppresses tumor growth in LLC mouse models., (© 2023 The Authors. Immunity, Inflammation and Disease published by John Wiley & Sons Ltd.)

Published

2023

17. Transmembrane protein 150b attenuates BMP signaling in the Xenopus organizer.

Author

Keum BR, Yeo I, Koo Y, Han W, Choi SC, Kim GH, and Han JK

Subjects

Animals, Xenopus laevis genetics, Xenopus laevis metabolism, DNA, Complementary metabolism, Prospective Studies, Body Patterning genetics, Gene Expression Regulation, Developmental genetics, Xenopus Proteins genetics, Xenopus Proteins metabolism, Signal Transduction

Abstract

The vertebrate organizer is a specified embryonic tissue that regulates dorsoventral patterning and axis formation. Although numerous cellular signaling pathways have been identified as regulators of the organizer's dynamic functions, the process remains incompletely understood, and as-yet unknown pathways remain to be explored for sophisticated mechanistic understanding of the vertebrate organizer. To identify new potential key factors of the organizer, we performed complementary DNA (cDNA) microarray screening using organizer-mimicking Xenopus laevis tissue. This analysis yielded a list of prospective organizer genes, and we determined the role of six-transmembrane domain containing transmembrane protein 150b (Tmem150b) in organizer function. Tmem150b was expressed in the organizer region and induced by Activin/Nodal signaling. In X. laevis, Tmem150b knockdown resulted in head defects and a shortened body axis. Moreover, Tmem150b negatively regulated bone morphogenetic protein (BMP) signaling, likely via physical interaction with activin receptor-like kinase 2 (ALK2). These findings demonstrated that Tmem150b functions as a novel membrane regulatory factor of BMP signaling with antagonistic effects, contributing to the understanding of regulatory molecular mechanisms of organizer axis function. Investigation of additional candidate genes identified in the cDNA microarray analysis could further delineate the genetic networks of the organizer during vertebrate embryogenesis., (© 2023 Wiley Periodicals LLC.)

Published

2023

18. G-protein couple receptor (GPER1) plays an important role during ovarian folliculogenesis and early development of the Chinese Alligator.

Author

Wen Y, Zhan J, Li C, Li P, Wang C, Wu J, Xu Y, Zhang Y, Zhou Y, Li E, Nie H, and Wu X

Subjects

Female, Animals, DNA, Complementary metabolism, Ovary metabolism, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, GTP-Binding Proteins metabolism, Alligators and Crocodiles genetics

Abstract

The critical role of the G protein-coupled receptor 1 (GPER1), a member of the seven-transmembrane G protein-coupled receptor family, in the functional regulation of oocytes accumulated abundant theories in the early research on model animals. However, the full-length cDNA encoding GPER1 and its role in the folliculogenesis has not been illustrated in crocodilians. 0.5, 3, and 12 months old Alligator sinensis cDNA samples were used to clone the full-length cDNA encoding GPER1. Immunolocalization and quantitative analysis were performed using Immunofluorescence technique, RT-PCR and Western blot. Simultaneously, studies on GPER1's promoter deletion and cis-acting transcriptional regulation mechanism were conducted. Immunolocalization staining for the germline marker DDX4 and GPER1 demonstrated that DDX4-positive oocytes were clustered tightly together within the nests, whereas scarcely any detectable GPER1 was present in the oocytes nest in Stage I. After that, occasionally GPER1-positive immunosignal was observed in oocytes and somatic cells additional with the primordial follicles, and it was mainly located at the granulosa cells or thecal cells within the early PFs in the Stage III. The single mutation of the putative SP1 motif, double mutating of Ets/SP1 and SP1/CRE binding sites all depressed promoter activities. This result will help to investigate the role of GPER1 in the early folliculogenesis of A. sinensis., Competing Interests: Declaration of Competing Interest We declare that we have no financial and personal relationships with other people or organizations that can inappropriately influence our work, there is no professional or other personal interest of any nature or kind in any product, service and/or company that could be construed as influencing the position presented in, or the review of, the manuscript entitled, “G-protein couple receptor (GPER1) plays an important role during ovarian folliculogenesis and early development of the Chinese Alligator”., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

19. "One suction and one extrusion" mode-based wash-free platform for determination of breast cancer cell-derived exosomes.

Author

Xia L, Zhang M, Hu Y, Mei W, Long Y, Wang H, Zou L, Wang Q, Yang X, and Wang K

Subjects

Humans, Female, DNA, Complementary metabolism, Hydrogen Peroxide metabolism, Epithelial Cell Adhesion Molecule metabolism, Reproducibility of Results, Suction, Horseradish Peroxidase metabolism, Breast Neoplasms diagnosis, Exosomes metabolism

Abstract

A simple and wash-free POCT platform based on microcapillary was developed, using breast cancer cell-derived exosomes as a model. This method adopted the "one suction and one extrusion" mode. The hybridized complex of epithelial cell adhesion molecule (EpCAM) aptamer and complementary DNA-horseradish peroxidase conjugate (CDNA-HRP) was pre-modified on the microcapillary's inner surface. "One suction" meant inhaling the sample into the functionalized microcapillary. The exosomes could specifically bind with the EpCAM aptamer on the microcapillary's inner wall, and then the CDNA-HRP complex was released. "One extrusion" referred to squeezing the shedding CDNA-HRP into the 3,3',5,5'-tetramethylbenzidine (TMB)/H 2 O 2 solution, and then the enzyme-catalyzed reaction would occur to make the solution yellow using sulfuric acid as the terminator. Therefore, exosome detection could be realized. The limit of detection was 2.69 × 10 4  particles mL -1 and the signal value had excellent linearity in the concentration range from 2.75 × 10 4 to 2.75 × 10 8 particles⋅mL -1 exosomes. In addition, the wash-free POCT platform also displayed a favorable reproducibility (RSD = 2.9%) in exosome detection. This method could effectively differentiate breast cancer patients from healthy donors. This work provided an easy-to-operate method for detecting cancer-derived exosomes without complex cleaning steps, which is expected to be applied to breast cancer screening., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.)

Published

2023

20. Rlip Reduction Induces Oxidative Stress and Mitochondrial Dysfunction in Mutant Tau-Expressed Immortalized Hippocampal Neurons: Mechanistic Insights.

Author

Reddy PH, Kshirsagar S, Bose C, Pradeepkiran JA, Hindle A, Singh SP, Reddy AP, and Baig J

Subjects

Humans, DNA, Complementary metabolism, Neurons metabolism, Mitochondria metabolism, Oxidative Stress, RNA metabolism, Hippocampus metabolism, Alzheimer Disease metabolism, Tauopathies metabolism

Abstract

RalBP1 (Rlip) is a stress-activated protein that is believed to play a large role in aging and neurodegenerative diseases such as Alzheimer's disease (AD) and other tauopathies. The purpose of our study was to understand the role of Rlip in mutant Tau-expressed immortalized hippocampal HT22 cells. In the current study, we used mutant Tau (mTau)-expressed HT22 neurons and HT22 cells transfected with Rlip-cDNA and/or silenced RNA, and studied the cell survival, mitochondrial respiration, mitochondrial function, immunoblotting, and immunofluorescence analysis of synaptic and mitophagy proteins and the colocalization of Rlip and mTau proteins. We found Rlip protein levels were reduced in mTau-HT22 cells, Rlip silenced HT22 cells, and mTau + Rlip RNA silenced HT22 cells; on the other hand, increased Rlip levels were observed in Rlip cDNA transfected HT22 cells. We found cell survival was decreased in mTau-HT22 cells and RNA-silenced HT22 cells. However, cell survival was increased in Rlip-overexpressed mTau-HT22 cells. A significantly reduced oxygen consumption rate (OCR) was found in mTau-HT22 cells and in RNA-silenced Rlip-HT22 cells, with an even greater reduction in mTau-HT22 + Rlip RNA-silenced HT22 cells. A significantly increased OCR was found in Rlip-overexpressed HT22 cells and in all groups of cells that overexpress Rlip cDNA. Mitochondrial function was defective in mTau-HT22 cells, RNA silenced Rlip in HT22 cells, and was further defective in mTau-HT22 + Rlip RNA-silenced HT22 cells; however, it was rescued in Rlip overexpressed in all groups of HT22 cells. Synaptic and mitophagy proteins were decreased in mTau-HT22 cells, and further reductions were found in RNA-silenced mTau-HT22 cells. However, these were increased in mTau + Rlip-overexpressed HT22 cells. An increased number of mitochondria and decreased mitochondrial length were found in mTau-HT22 cells. These were rescued in Rlip-overexpressed mTau-HT22 cells. These observations strongly suggest that Rlip deficiency causes oxidative stress/mitochondrial dysfunction and Rlip overexpression reverses these defects. Overall, our findings revealed that Rlip is a promising new target for aging, AD, and other tauopathies/neurological diseases.

Published

2023

21. Molecular cloning and functional analysis of HnSaratin from Hirudo nipponia.

Author

Cheng B, Kuang S, Shao G, Tian Q, Gao T, Che X, Ao H, Zhang K, and Liu F

Subjects

Animals, Rats, Cloning, Molecular, Proteins genetics, DNA, Complementary genetics, DNA, Complementary metabolism, Protein Sorting Signals genetics, Amino Acids genetics, Leeches

Abstract

In order to finish a bloodmeal successfully, hematophagous organisms often stored a variety of anticoagulant proteins in their salivary glands, such as proteins that inhibit platelet aggregation. When they ingest a bloodmeal, these proteins are injected into the host to prevent the blood from clotting. As one of the origins of leeches used in traditional Chinese medicine, H. nipponia was proved to be clinically effective in treatment of cardiovascular and cerebrovascular diseases. This study cloned the sequence of HnSaratin cDNA derived from salivary glands of H. nipponia. The sequence contains an open reading frame of 387 bp, encoding a protein of 128 amino acids containing a signal peptide of 21 amino acids. After removal of the signal peptide, the molecular mass of mature HnSaratin was 12.37 kDa, with a theoretical isoelectric point (pI) of 3.89. The N-terminal of mature HnSaratin was folded into a globular structure, in which 3 disulfide bonds, a ββαβββ topology and 2 Glu residues that binds collagenous Lys2 were located, and the C-terminal formed a flexible region. The fusion HnSaratin protein was obtained by a prokaryotic expression system. The protein showed anti-platelet aggregation activity, and was observed to prevent blood clotting in rats. The significant high expression of HnSaratin mRNA in salivary glands was induced by bloodmeal ingestion of H. nipponia. Briefly, our work provides theoretical basis for further development and utilization of H. nipponia., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

22. A modified method for efficient RNA isolation from mangrove root tissues rich in secondary metabolites.

Author

Nizam A, Kalath H, and Kumar A

Subjects

RNA metabolism, DNA, Complementary metabolism, Genetic Techniques, Rhizophoraceae genetics, Rhizophoraceae metabolism

Abstract

Secondary metabolites in mangroves often interfere with RNA extraction yielding poor concentration and quality, which is unsuitable for downstream applications. As existing protocols yielded low-quality RNA from root tissues of Kandelia candel (L.) Druce and Rhizophora mucronata Lam., an optimized method was developed for improving the quality and yield of RNA. Compared with three other methods, this optimized protocol gave better RNA yield and purity for both species. The absorbance ratios were ≥1.9 for A260/280 and A260/230, while RNA integrity number values ranged from 7.5 to 9.6. Results show that our modified method is efficient in obtaining high-quality RNA from mangrove roots and is suitable for downstream experiments such as cDNA synthesis, real-time quantitative PCR and next-generation sequencing.

Published

2023

23. cDNA Cloning of Feline PIWIL1 and Evaluation of Expression in the Testis of the Domestic Cat.

Author

Stalker L, Backx AG, Tscherner AK, Russell SJ, Foster RA, and LaMarre J

Subjects

Animals, Male, Cats, DNA, Complementary genetics, DNA, Complementary metabolism, RNA, Small Interfering genetics, Protein Isoforms metabolism, Cloning, Molecular, Endonucleases metabolism, Argonaute Proteins genetics, Argonaute Proteins metabolism, Mammals metabolism, Testis metabolism, Piwi-Interacting RNA

Abstract

The PIWI clade of Argonaute proteins is essential for spermatogenesis in all species examined to date. This protein family binds specific classes of small non-coding RNAs known as PIWI-interacting RNAs (piRNAs) which together form piRNA-induced silencing complexes (piRISCs) that are recruited to specific RNA targets through sequence complementarity. These complexes facilitate gene silencing through endonuclease activity and guided recruitment of epigenetic silencing factors. PIWI proteins and piRNAs have been found to play multiple roles in the testis including the maintenance of genomic integrity through transposon silencing and facilitating the turnover of coding RNAs during spermatogenesis. In the present study, we report the first characterization of PIWIL1 in the male domestic cat, a mammalian system predicted to express four PIWI family members. Multiple transcript variants of PIWIL1 were cloned from feline testes cDNA. One isoform shows high homology to PIWIL1 from other mammals, however, the other has characteristics of a "slicer null" isoform, lacking the domain required for endonuclease activity. Expression of PIWIL1 in the male cat appears limited to the testis and correlates with sexual maturity. RNA-immunoprecipitation revealed that feline PIWIL1 binds small RNAs with an average size of 29 nt. Together, these data suggest that the domestic cat has two PIWIL1 isoforms expressed in the mature testis, at least one of which interacts with piRNAs.

Published

2023

24. Lung endothelial cells regulate pulmonary fibrosis through FOXF1/R-Ras signaling.

Author

Bian F, Lan YW, Zhao S, Deng Z, Shukla S, Acharya A, Donovan J, Le T, Milewski D, Bacchetta M, Hozain AE, Tipograf Y, Chen YW, Xu Y, Shi D, Kalinichenko VV, and Kalin TV

Subjects

Mice, Animals, Humans, Tumor Necrosis Factor-alpha metabolism, DNA, Complementary metabolism, Lung metabolism, Bleomycin toxicity, Forkhead Transcription Factors metabolism, Fibroblasts metabolism, Endothelial Cells metabolism, Idiopathic Pulmonary Fibrosis chemically induced, Idiopathic Pulmonary Fibrosis genetics, Idiopathic Pulmonary Fibrosis metabolism

Abstract

Pulmonary fibrosis results from dysregulated lung repair and involves multiple cell types. The role of endothelial cells (EC) in lung fibrosis is poorly understood. Using single cell RNA-sequencing we identified endothelial transcription factors involved in lung fibrogenesis, including FOXF1, SMAD6, ETV6 and LEF1. Focusing on FOXF1, we found that FOXF1 is decreased in EC within human idiopathic pulmonary fibrosis (IPF) and mouse bleomycin-injured lungs. Endothelial-specific Foxf1 inhibition in mice increased collagen depositions, promoted lung inflammation, and impaired R-Ras signaling. In vitro, FOXF1-deficient EC increased proliferation, invasion and activation of human lung fibroblasts, and stimulated macrophage migration by secreting IL-6, TNFα, CCL2 and CXCL1. FOXF1 inhibited TNFα and CCL2 through direct transcriptional activation of Rras gene promoter. Transgenic overexpression or endothelial-specific nanoparticle delivery of Foxf1 cDNA decreased pulmonary fibrosis in bleomycin-injured mice. Nanoparticle delivery of FOXF1 cDNA can be considered for future therapies in IPF., (© 2023. The Author(s).)

Published

2023

25. Arabidopsis plants overexpressing additional copies of heat shock protein Hsp101 showed high heat tolerance and endo-gene silencing.

Author

Babbar R, Tiwari LD, Mishra RC, Shimphrui R, Singh AA, Goyal I, Rana S, Kumar R, Sharma V, Tripathi G, Khungar L, Sharma J, Agrawal C, Singh G, Biswas T, Biswal AK, Sahi C, Sarkar NK, and Grover A

Subjects

DNA, Complementary metabolism, Gene Expression Regulation, Plant, Hot Temperature, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Transcription Factors genetics, Transcription Factors metabolism, Arabidopsis metabolism, Heat-Shock Proteins metabolism, Plant Proteins genetics, Plant Proteins metabolism, Thermotolerance genetics

Abstract

Hsp101 chaperone is vital for survival of plants under heat stress. We generated transgenic Arabidopsis thaliana (Arabidopsis) lines with extra copies of Hsp101 gene using diverse approaches. Arabidopsis plants transformed with rice Hsp101 cDNA driven by Arabidopsis Hsp101 promoter (IN lines) showed high heat tolerance while the plants transformed with rice Hsp101 cDNA driven by CaMV35S promoter (C lines) were like wild type plants in heat stress response. Transformation of Col-0 plants with 4633 bp Hsp101 genomic fragment (GF lines) from A. thaliana containing both its coding and the regulatory sequence resulted in mostly over-expressor (OX) lines and a few under-expressor (UX) lines of Hsp101. OX lines showed enhanced heat tolerance while the UX lines were overly heat sensitive. In UX lines, silencing of not only Hsp101 endo-gene was noted but also transcript of choline kinase (CK2) was silenced. Previous work established that in Arabidopsis, CK2 and Hsp101 are convergent gene pairs sharing a bidirectional promoter. The elevated AtHsp101 protein amount in most GF and IN lines was accompanied by lowered CK2 transcript levels under HS. We observed increased methylation of the promoter and gene sequence region in UX lines; however, methylation was lacking in OX lines., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

26. Pitfalls of using sequence databases for heterologous expression studies - a technical review.

Author

Maxeiner S, Krasteva-Christ G, and Althaus M

Subjects

Base Sequence, Amino Acid Sequence, DNA, Complementary genetics, DNA, Complementary metabolism, Proteins genetics

Abstract

Synthesis of DNA fragments based on gene sequences that are available in public resources has become an efficient and affordable method that has gradually replaced traditional cloning efforts such as PCR cloning from cDNA. However, database entries based on genome sequencing results are prone to errors which can lead to false sequence information and, ultimately, errors in functional characterisation of proteins such as ion channels and transporters in heterologous expression systems. We have identified five common problems that repeatedly appear in public resources: (1) Not every gene has yet been annotated; (2) not all gene annotations are necessarily correct; (3) transcripts may contain automated corrections; (4) there are mismatches between gene, mRNA and protein sequences; and (5) splicing patterns often lack experimental validation. This technical review highlights and provides a strategy to bypass these issues in order to avoid critical mistakes that could impact future studies of any gene/protein of interest in heterologous expression systems., (© 2023 The Authors. The Journal of Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.)

Published

2023

27. Tissue-specific expansion of Zika virus isogenic variants drive disease pathogenesis.

Author

Chan KWK, Bifani AM, Watanabe S, Choy MM, Ooi EE, and Vasudevan SG

Subjects

Male, Chlorocebus aethiops, Animals, Mice, Vero Cells, DNA, Complementary genetics, DNA, Complementary metabolism, Virus Replication, RNA, Viral genetics, RNA, Viral metabolism, Zika Virus genetics, Zika Virus Infection

Abstract

Background: The Asian lineage Zika virus (ZIKV) emerged as a public health emergency in 2016 causing severe neurological pathologies with no apparent historical correlate to the mild, disease-causing innocuous member of the mosquito-borne flavivirus genus that was discovered in Africa in 1947. Replication error rate of RNA viruses combined with viral protein/RNA structural plasticity can lead to evolution of virus-induced pathogenicity that is critical to identify and validate., Methods: Infection studies in cells and A129 interferon alpha/beta receptor deficient mice with ZIKV French Polynesian H/PF/2013 clinical isolate, plaque-purified isogenic clone derivatives as well as infectious cDNA clone derived wild-type and site-specific mutant viruses, were employed together with Next-Generation Sequencing (NGS) to pin-point the contributions of specific viral variants in neurovirulence recapitulated in our ZIKV mouse model., Findings: NGS analysis of the low-passage inoculum virus as well as mouse serum, brain and testis derived virus, revealed specific enrichment in the mouse brain that were not found in the other tissues. Specifically, non-structural (NS) protein 2A variant at position 117 along with changes in NS1 and NS4B were uniquely associated with the mouse brain isolate. Mutational analysis of these variants in cDNA infectious clones identified the NS2A A117V as the lethal pathogenic determinant with potential epistatic contribution of NS1 and NS4B variants in ZIKV brain penetrance., Interpretation: Our findings confirm that viral subpopulations drive ZIKV neuropathogenicity and identify specific sequence variants that expand in the mouse brain that associates with this phenotype which can serve as predictors of severe epidemics., Funding: Duke-NUS Khoo Post-doctoral Fellowship Award 2020 (KWKC) and National Medical Research Council of Singapore grants MOH-000524 (OFIRG) (SW) and MOH-OFIRG20nov-0002 (SGV)., Competing Interests: Declaration of interests The authors declared no conflicts of interest., (Copyright © 2023 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2023

28. Identification, Baculoviral Expression, and Biochemical Characterization of a Novel Cholinesterase of Amblyomma americanum (Acari: Ixodidae).

Author

Temeyer KB, Schlechte KG, Gross AD, and Lohmeyer KH

Subjects

Animals, Rabbits, Amblyomma genetics, Cholinesterases metabolism, DNA, Complementary genetics, DNA, Complementary metabolism, Acetylthiocholine metabolism, Butyrylthiocholine metabolism, Antibodies metabolism, Ixodidae genetics, Ticks

Abstract

A cDNA encoding a novel cholinesterase (ChE, EC 3.1.1.8) from the larvae of Amblyomma americanum (Linnaeus) was identified, sequenced, and expressed in Sf21 insect cell culture using the baculoviral expression vector pBlueBac4.5/V5-His. The open reading frame (1746 nucleotides) of the cDNA encoded 581 amino acids beginning with the initiation codon. Identical cDNA sequences were amplified from the total RNA of adult tick synganglion and salivary gland, strongly suggesting expression in both tick synganglion and saliva. The recombinant enzyme (rAaChE1) was highly sensitive to eserine and BW284c51, relatively insensitive to tetraisopropyl pyrophosphoramide (iso-OMPA) and ethopropazine, and hydrolyzed butyrylthiocholine (BuTCh) 5.7 times as fast as acetylthiocholine (ATCh) at 120 µM, with calculated K M values for acetylthiocholine (ATCh) and butyrylthiocholine of 6.39 µM and 14.18 µM, respectively. The recombinant enzyme was highly sensitive to inhibition by malaoxon, paraoxon, and coroxon in either substrate. Western blots using polyclonal rabbit antibody produced by immunization with a peptide specific for rAaChE1 exhibited reactivity in salivary and synganglial extract blots, indicating the presence of AaChE1 antigenic protein. Total cholinesterase activities of synganglial or salivary gland extracts from adult ticks exhibited biochemical properties very different from the expressed rAaACh1 enzyme, evidencing the substantial presence of additional cholinesterase activities in tick synganglion and saliva. The biological function of AaChE1 remains to be elucidated, but its presence in tick saliva is suggestive of functions in hydrolysis of cholinergic substrates present in the large blood mean and potential involvement in the modulation of host immune responses to tick feeding and introduced pathogens.

Published

2023

29. Molecular cloning and characterization of Sirt1 and its role in the follicle of juvenile Chinese soft-shelled turtle (Pelodiscus sinensis).

Author

Zhang H, Gao Y, Wang G, Xin Q, Tian X, Wu L, Shi X, Ma W, Liu H, Jiang H, Wu Q, Li X, and Ma X

Subjects

Male, Animals, Female, Sirtuin 1 genetics, Sirtuin 1 metabolism, Phylogeny, DNA, Complementary metabolism, bcl-2-Associated X Protein metabolism, Cloning, Molecular, Ovarian Follicle, TOR Serine-Threonine Kinases metabolism, Gonadotropin-Releasing Hormone genetics, Turtles genetics, Turtles metabolism

Abstract

Sirt1 is a member of the Sirtuins family that regulates ovarian senescence, follicular development, and oocyte maturation in vertebrates. To understand its role in the ovary of Pelodiscus sinensis, we cloned the full-length cDNA of Ps-Sirt1 and characterized its potential function by intraperitoneally injecting agonist (resveratrol) and antagonist (EX527) in the female juvenile turtle. The full-length cDNA of Ps-Sirt1 was 2106 bp, comprising 203 bp 5'UTR, a 226 bp 3'UTR, and a 1677 bp ORF encoding 558 amino acids. The calculated molecular weight of predicted protein was 63 kDa, and the isoelectric point was 4.65. The predicted protein comprised a conserved Sir2 domain. Amino acid sequence alignment and phylogenetic analyses showed that Ps-Sirt1 was most closely related to turtles, and distantly related to fish. Expression pattern analysis showed Ps-Sirt1 was highest expressed in ovary, followed by testis, liver, heart, and brain. In the ovarian differentiation processes, Sirt1 showed significantly higher expression at embryonic stage 15 and 21. In the testis differentiation process, Sirt1 expression was downregulated at embryonic stages 15-19. Activated and inactivated Sirt1 decreased the number of primordial follicles in juvenile turtles. Bcl2, Bax, mTOR, and rpS6 expressions were up-regulated, whereas GnRH, Fshb, p50, and p65 were down-regulated after agonist treatment. The inaction of Sirt1 with antagonist up-regulated GnRH, Fshb, p65, p53, Foxo3a, Bcl2, Bax, mTOR, and rpS6, but down-regulated p50. In summary, Sirt1 might be involved in the ovarian follicle development of P. sinensis., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier B.V.)

Published

2023

30. Low-complexity domain-containing protein (LCDP), induced accumulation of calcium carbonate individual crystals to irregular polycrystals in the triangle sail mussel Hyriopsis cumingii.

Author

Yuan Y, Hu H, Zhong J, Yan L, Bai Z, and Li J

Subjects

Animals, DNA, Complementary metabolism, Calcium Carbonate metabolism, Amino Acids metabolism, Bivalvia genetics, Bivalvia metabolism, Unionidae genetics, Unionidae metabolism, Nacre metabolism

Abstract

The nacre layer is composed of sheet-like aragonite crystals, with often loosely arranged polycrystal aragonite sheets which may induce poor mechanical properties in shells. In this study, a full-length low-complexity domain-containing protein (LCDP) cDNA from the triangle sail mussel Hyriopsis cumingii was generated and its role in shell formation investigated. The full-length cDNA was 1058 bp; it had an open reading frame (ORF) of 714 bp encoding 237 amino acids and contained a 20-amino acid signal peptide at the N-terminus and two low-complexity domains. H. cumingii LCDP was not homologous with other species. Tissue expression analyses showed that LCDP was specifically expressed in the mantle. In shell repair assays, significantly higher LCDP expression was observed in the shell repair group from days 12-21 (p < 0.01). After LCDP silencing, aragonite flake shapes in pearl layers became irregular with disordered deposition, while calcium carbonate (CaCO 3 ) crystal surfaces in prismatic layers became rougher and organic matrices between crystals appeared skeletonized, indicating the importance of biomineralization. Our in vitro CaCO 3 crystallization assays showed that LCDP induced single crystals to polycrystals, probably via loose arrangement between aragonite flakes. These results provide new insights on freshwater mollusk biomineralization and a theoretical basis for improved pearl quality., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

31. [Investigation of Efflux Pump Genes in Resistant Mycobacterium tuberculosis Complex Clinical Isolates Exposed to First Line Antituberculosis Drugs and Verapamil Combination].

Author

Özgür D, Ersoy L, Ülger M, Tezcan Ülger S, and Aslan G

Subjects

Humans, Antitubercular Agents pharmacology, Antitubercular Agents therapeutic use, Verapamil pharmacology, Verapamil metabolism, DNA, Complementary metabolism, DNA, Complementary pharmacology, Bacterial Proteins genetics, Bacterial Proteins metabolism, Isoniazid pharmacology, Rifampin pharmacology, Microbial Sensitivity Tests, Mycobacterium tuberculosis, Tuberculosis microbiology, Tuberculosis, Multidrug-Resistant drug therapy

Abstract

Tuberculosis (TB) is caused by Mycobacterium tuberculosis, still one of the most common life-threatening infectious diseases worldwide. Although drug resistance in M.tuberculosis is mainly due to spontaneous chromosomal mutations in genes encoding drug target or drug activating enzymes, the resistance cannot be explained only by these mutations. Low permeability of the cell wall, drug inactivating enzymes and especially efflux pumps (EPs) are other mechanisms of drug resistance in mycobacteria. Efflux pump inhibitors (EPIs) binding to M.tuberculosis EPs were shown to inhibit efflux of anti-TB drugs, to enhance M.tuberculosis killing, to reduce drug resistance and to produce synergistic effects with first line anti-TB drugs. In this study, we aimed to determine the minimum inhibitory concentration (MIC) of first-line anti-TB drugs in the presence of verapamil (VER) and the expression of 21 putative EP genes belonged to the ATP-binding cassette (ABC), major facilitator superfamily (MFS) and resistance-nodulation-division (RND) families which might have caused the resistance in nine M.tuberculosis complex clinical isolates resistant to all of the first line anti-TB drugs. MIC values of the isolates were determined in 96-well U-bottom plates by the resazurin microtiter test (REMA) method based on the color change principle. According to the determined MIC values of each isolate, freshly grown cultures in Middlebrook 7H9 broth were exposed to first-line anti-TB drugs and MIC of first-line anti-TB drugs in the presence of VER (½ MIC) at 37°C for 48 hours for RNA extraction. The non-drug exposed cultures were used as control. Total RNA was extracted using the RNeasy Mini Kit (Qiagen GmbH, Hilden, Germany) and then treated with DNase I (Thermo Fischer Scientific Inc., Waltham, MA). Complementary DNA (cDNA) from the extracted RNAs was synthesized with the "First strand cDNA synthesis kit" (Thermo Fischer Scientific Inc., Waltham, MA) using oligo primers. The expression levels of efflux pump genes by quantitative realtime polymerase chain reaction (qRt-PCR) were performed using the QuantiTect SYBR Green Rt-PCR Kit (Qiagen, Germany). The housekeeping sigma factor gene sigA (Rv2703) was used as internal control in qRt‑PCR assays. Relative quantification of the clinical isolates was determined by the 2-∆∆Ct method by comparing the expression levels of efflux genes in cultures exposed to primary anti-TB drugs and VER with those of non-drug exposed cultures. MIC values of nine isolates by REMA method was determined between 32-512 μg/mL, 1-128 μg/mL, 2-32 μg/mL, 4-16 μg/mL and 15.62-250 μg/mL for streptomycin (SM), isoniazid (INH), rifampicin (RIF), ethambutol (EMB) and VER, respectively. In the presence of ½ MIC VER, it was determined that the MIC of SM decreased 2-32 fold in eight isolates, the MIC of INH decreased by 2-8 fold in nine isolates, the MIC of RIF decreased by 2-16 fold in eight isolates, and the MIC of EMB decreased 2-4 fold in only five isolates. There was an increase in the expression of Rv1273c, Rv1456c, Rv1457 and Rv1819 efflux pump genes from the ABC family, Rv1634 and Rv0842 from the MFS family and Rv3823 efflux from the RND family in isolates exposed to ½ MIC of first-line anti-TB drugs stress. Rv1456c and Rv1819 were found to be associated with SM resistance, Rv1273c with EMB resistance, Rv1457, Rv0842 and Rv3823 with both RIF and EMB resistance, and Rv1634 with INH, RIF and EMB resistance. It was determined that there was a decrease in the expression levels of eight efflux pump genes from the ABC family (Rv1456c, Rv1457c, Rv1458c, Rv0194, Rv1272c, Rv1686c, Rv1687c, Rv1819c), six from MFS family (Rv0842, Rv0849, Rv1634, Rv2265, Rv2456c, Rv0876c) and two from RND family (Rv0507, Rv0676c) in isolates exposed to MIC of first-line anti-TB drugs in the presence of VER (½ MIC). Further studies with clinical isolates are needed to investigate the EPIs that can be used in alternative therapy and to determine the contribution of EPs to the development of resistance due to the increasing TB resistance.

Published

2023

32. Isolation and characterization of a pathogenesis-related protein 1 (SlPR1) gene with induced expression in tomato (Solanum lycopersicum) during Ralstonia solanacearum infection.

Author

Chen N, Shao Q, and Xiong Z

Subjects

DNA, Complementary metabolism, Phylogeny, Stress, Physiological, Plant Diseases genetics, Plant Diseases microbiology, Ralstonia solanacearum genetics, Solanum lycopersicum genetics

Abstract

In order to explore the function of pathogenesis-related (PR) proteins in regulating tomato (Solanum lycopersicum) biological stress response, a PR protein gene (SlPR1) (Gen ID: Solyc01g106620.2) was isolated from tomato by RT-PCR. The full-length cDNA was 760 bp, which encoded a total of 179 amino acids. The cDNA contained a 42 bp 5' non-coding region, a 178 bp 3' non-coding region, and an open reading frame (ORF) of 540 bp. Homologous sequence alignment and phylogenetic analysis indicated that SlPR1 was highly homologous with a S. tuberosum PR1 protein, followed by S. pennellii. The predicted molecular weight of SlPR1 was 20,123.47 Da, the isoelectric point was 8.48, and the protein was found to be a secreted protein with a transmembrane structure. Quantitative real-time PCR (qRT-PCR) revealed that SlPR1 gene expression was highest in tomato stems, and could be induced by infection with Ralstonia solanacearum, and treatment with salicylic acid (SA) and methyl jasmonate acid (MeJA).Virus-induced gene silencing (VIGS) of SlPR1 decreased plant resistance to bacterial wilt, suggesting that SlPR1 positively regulates tomato resistance to this disease.This study provides a reference for the further exploration of the role of SlPR1 in the response of tomato to bacterial wilt and other stressors., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2023

33. Induced expression of Ganoderma boninense Lanosterol 14α-Demethylase (ERG11) during interaction with oil palm.

Author

Lim FH, Rasid OA, Idris AS, As'wad AWM, Vadamalai G, Parveez GKA, and Wong MY

Subjects

Arecaceae genetics, Arecaceae metabolism, DNA, Complementary genetics, DNA, Complementary metabolism, Lanosterol metabolism, Plant Diseases microbiology, Ganoderma genetics

Abstract

Background: The basidiomycete fungus, Ganoderma boninense is the main contributor to oil palm Basal Stem Rot (BSR) in Malaysia and Indonesia. Lanosterol 14α-Demethylase (ERG11) is a key enzyme involved in biosynthesis of ergosterol, which is an important component in the fungal cell membrane. The Azole group fungicides are effective against pathogenic fungi including G. boninense by inhibiting the ERG11 activity. However, the work on molecular characterization of G. boninense ERG11 is still unavailable today., Methods and Results: This study aimed to isolate and characterize the full-length cDNA encoding ERG11 from G. boninense. The G. boninense ERG11 gene expression during interaction with oil palm was also studied. A full-length 1860 bp cDNA encoding ERG11 was successfully isolated from G. boninense. The G. boninense ERG11 shared 91% similarity to ERG11 from other basidiomycete fungi. The protein structure homology modeling of GbERG11 was analyzed using the SWISS-MODEL workspace. Southern blot and genome data analyses showed that there is only a single copy of ERG11 gene in the G. boninense genome. Based on the in-vitro inoculation study, the ERG11 gene expression in G. boninense has shown almost 2-fold upregulation with the presence of oil palm., Conclusion: This study provided molecular information and characterization study on the G. boninense ERG11 and this knowledge could be used to design effective control measures to tackle the BSR disease of oil palm., (© 2022. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2023

34. Endothelial cell expression of mutant Map2k1 causes vascular malformations in mice.

Author

Smits PJ, Sudduth CL, Konczyk DJ, Cheng YS, Vivero MP, Kozakewich HPW, Warman ML, and Greene AK

Subjects

Animals, Mice, Endothelial Cells metabolism, DNA, Complementary metabolism, Mutation genetics, Arteriovenous Malformations genetics, Vascular Malformations pathology

Abstract

Extracranial arteriovenous malformation (AVM) is a congenital vascular anomaly causing disfigurement, bleeding, ulceration, and pain. Most lesions are associated with somatic MAP2K1 activating mutations in endothelial cells (ECs). The purpose of this study was to determine if EC expression of mutant activated MAP2K1 is sufficient to produce vascular malformations in mice. We generated mice with a ROSA26 allele containing a lox-stop-lox gene trap (GT), Map2k1 cDNA with an activating p.K57N missense mutation, an internal ribosomal entry site, and green fluorescent protein cDNA (R26 GT-Map2k1-GFP ). We expressed mutant MAP2K1 and GFP in ECs of fetal and newborn mice using Tg-Cdh5Cre or Tg-Cdh5CreER alleles. Tg-Cdh5Cre +/- ;R26 GT-Map2k1-GFP/+ animals that express mutant MAP2K1 in ECs in utero developed diffuse vascular abnormalities and died by embryonic (E) day 16.5. Tg-Cdh5CreER +/- ;R26 GT-Map2k1-GFP/+ animals in which mutant MAP2K1 expression was induced in ECs by tamoxifen at postnatal (P) day 1 developed vascular malformations in the brain, ear, and intestines by P23. The lesions consisted of abnormal networks of blood vessels containing recombined and non-recombined ECs. In conclusion, expression of MAP2K1 p.K57N is sufficient to cause vascular malformations in mice. This model can be used to study the malformation process and for pre-clinical pharmacologic studies., (© 2022. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2023

35. Comparative analysis of two cathepsin L genes in Asiatic hard clam (Meretrix meretrix): Similar in sequence features, different in expression profiles.

Author

Zheng B, Wang Y, Hu J, Bao Z, and Wang M

Subjects

Animals, Amino Acid Sequence, Base Sequence, Sequence Alignment, DNA, Complementary genetics, DNA, Complementary metabolism, 3' Untranslated Regions, Cathepsin L genetics, Papain genetics, Papain metabolism, Protein Sorting Signals genetics, Phylogeny, Cloning, Molecular, Bivalvia, Anti-Infective Agents

Abstract

Cathepsin L is widely found in eukaryotes and prokaryotes, and it plays important roles in innate immunity. In the present study, we cloned two cathepsin L genes (designated as MmCTSL1 and MmCTSL2, respectively) from Asiatic hard clam (Meretrix meretrix). The complete sequence of MmCTSL1 cDNA contained a 5' untranslated region (UTR) of 31 bp, a 3' UTR of 228 bp with a poly (A) tail, and an open reading frame (ORF) of 1005 bp encoding 334 amino acids with predicted molecular weight of 37.5 kDa and theoretical isoelectric point of 5.27, and contained a signal peptide (from M1 to A16), a protease inhibitor I29 family domain (from W27 to F87), and a papain family cysteine protease domain (from L118 to T333). The complete sequence of MmCTSL2 cDNA contained a 5' UTR of 50 bp, a 3' UTR of 162 bp with a poly (A) tail, and an ORF of 996 bp encoding a polypeptide of 331 amino acids with predicted molecular weight of 36.8 kDa and theoretical isoelectric point of 7.07. It contained a signal peptide (from M1 to A16), a protease inhibitor I29 family domain (from W30 to F89), and a papain family cysteine protease domain (from L115 to T330). Real-time quantitative PCR analysis demonstrated that MmCTSL1 and MmCTSL2 were widely expressed in all the tested tissues, including adductor muscle, foot, gill, hemocytes, hepatopancreas and mantle, with the highest mRNA expression level in hepatopancreas and hemocytes, respectively. After Vibrio splendidus challenge, the mRNA expression levels of MmCTSL1 and MmCTSL2 in hemocytes and hepatopancreas were both significantly up-regulated with different expression profiles. In hemocytes, the expression levels of MmCTSL1 and MmCTSL2 reached their respective peaks (3.4-fold and 13.0-fold compared with the control, respectively) at 12 h after bacterial challenge, and MmCTSL2 responds earlier than MmCTSL1. In hepatopancreas, the expression levels of MmCTSL1 and MmCTSL2 reached their respective peaks at 6 h (9.0-fold compared with the control) and 24 h (2.8-fold compared with the control) after bacterial challenge, meaning that MmCTSL1 responds earlier than MmCTSL2. At the same time, whether in hepatopancreas or hemocytes, MmCTSL1 persist for a while after the bacterial challenge peak, while MmCTSL2 would quickly return to the initial level after the bacterial challenge peak. These results indicate that cathepsin L may be involved in the immune process of hard clam against V. splendidus with different potential roles., Competing Interests: Declaration of competing interest The authors declared no competing interests., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

36. Isolation and Characterization of the Arapaima gigas Growth Hormone (ag-GH) cDNA and Three-Dimensional Modeling of This Hormone in Comparison with the Human Hormone (hGH).

Author

Lima ER, Freire RP, Suzuki MF, Oliveira JE, Yosidaki VL, Peroni CN, Sevilhano T, Zorzeto M, Torati LS, Soares CRJ, Lima IDM, Kronenberger T, Maltarollo VG, and Bartolini P

Subjects

Animals, Humans, DNA, Complementary genetics, DNA, Complementary metabolism, HEK293 Cells, Base Sequence, Cloning, Molecular, Fishes genetics, Fishes metabolism, Growth Hormone metabolism, Human Growth Hormone genetics

Abstract

In a previous work, the common gonadotrophic hormone α-subunit (ag-GTHα), the ag-FSH β- and ag-LH β-subunit cDNAs, were isolated and characterized by our research group from A. gigas pituitaries, while a preliminary synthesis of ag-FSH was also carried out in human embryonic kidney 293 (HEK293) cells. In the present work, the cDNA sequence encoding the ag-growth hormone (ag-GH) has also been isolated from the same giant Arapaimidae Amazonian fish. The ag-GH consists of 208 amino acids with a putative 23 amino acid signal peptide and a 185 amino acid mature peptide. The highest identity, based on the amino acid sequences, was found with the Elopiformes (82.0%), followed by Anguilliformes (79.7%) and Acipenseriformes (74.5%). The identity with the corresponding human GH (hGH) amino acid sequence is remarkable (44.8%), and the two disulfide bonds present in both sequences were perfectly conserved. Three-dimensional (3D) models of ag-GH, in comparison with hGH, were generated using the threading modeling method followed by molecular dynamics. Our simulations suggest that the two proteins have similar structural properties without major conformational changes under the simulated conditions, even though they are separated from each other by a >100 Myr evolutionary period (1 Myr = 1 million years). The sequence found will be used for the biotechnological synthesis of ag-GH while the ag-GH cDNA obtained will be utilized for preliminary Gene Therapy studies.

Published

2023

37. Cell-Free Display Techniques for Protein Evolution.

Author

Li J, Yang Y, Li J, Li P, and Qi H

Subjects

Gene Library, Protein Biosynthesis genetics, DNA, Complementary analysis, DNA, Complementary chemistry, DNA, Complementary metabolism, Cell-Free System chemistry, Cell-Free System metabolism, Proteins analysis, Ribosomes genetics, Ribosomes chemistry, Ribosomes metabolism

Abstract

Cell-free protein synthesis (CFPS) with flexibility and controllability can provide a powerful platform for high-throughput screening of biomolecules, especially in the evolution of peptides or proteins. In this chapter, the emerging strategies for enhancing the protein expression level using different source strains, energy systems, and template designs in constructing CFPS systems are summarized and discussed in detail. In addition, we provide an overview of the ribosome display, mRNA display, cDNA display, and CIS display in vitro display technologies, which can couple genotype and phenotype by forming fusion complexes. Moreover, we point out the trend that improving the protein yields of CFPS itself can offer more favorable conditions for maintaining library diversity and display efficiency. It is hoped that the novel CFPS system can accelerate the development of protein evolution in biotechnological and medical applications., (© 2023. The Author(s), under exclusive license to Springer Nature Switzerland AG.)

Published

2023

38. The Implication of Alu cDNA in the Pathogenesis of ARMD.

Author

Nouraeinejad A

Subjects

Humans, DNA, Complementary metabolism, Retinal Pigment Epithelium metabolism, Retinal Pigment Epithelium pathology, Macular Degeneration genetics

Abstract

Age-related macular degeneration (ARMD or AMD) is a progressive, sight-threatening disease. The pathogenesis of ARMD is complex, involving many factors, such as metabolic, functional, genetic, and environmental factors. Recently, long interspersed nuclear element-1 (L1)- mediated reverse transcription (RT) of Alu RNA into cytoplasmic Alu complementary DNA (cDNA) has been associated with retinal pigment epithelium (RPE) destruction. These findings provide a strong input for a new direction in the management of ARMD, as certain human immunodeficiency virus (HIV) drugs, such as nucleoside reverse transcriptase inhibitors (NRTIs), were found to suppress inflammation and protect cells of the retina., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2023

39. MafG-like contribute to copper and cadmium induced antioxidant response by regulating antioxidant enzyme in Procambarus clarkii.

Author

Wang C, Hu H, Zeng L, Ni C, An J, Gang Y, Jian S, Wen C, and Hu B

Subjects

3' Untranslated Regions, 5' Untranslated Regions, Amino Acids genetics, Animals, Astacoidea genetics, Cadmium metabolism, Copper pharmacology, DNA, Complementary metabolism, Eosine Yellowish-(YS) metabolism, Eosine Yellowish-(YS) pharmacology, Hematoxylin metabolism, Hematoxylin pharmacology, Kelch-Like ECH-Associated Protein 1 genetics, NF-E2-Related Factor 2 genetics, Oxidants metabolism, Oxidative Stress, Recombinant Proteins genetics, Superoxide Dismutase genetics, Antioxidants pharmacology, Water Pollutants, Chemical metabolism

Abstract

Avian musculoaponeurotic fibrosarcoma (Maf) proteins play an important role in Nrf2/Keap1 signaling pathway, which mainly resist the oxidant stress. The members of sMaf have a high homology basic leucine zipper (bZIP) and lack trans activation domain, and could interact with other transcriptional regulatory factors as a molecular chaperone. In this study, a full-length MafG-like gene was cloned from Procambarus Clarkii, designated as PcMafG-like, which consisted of an ORF length of 246 bp encoding 82 amino acids, a 5' untranslated region (UTR) of 483 bp, and a 3' UTR of 111 bp. The domain of PcMafG-like had a bZIP-Maf domain that binds to DNA. The cDNA sequence of PcMafG-like was 99 % similar to that of Penaeus vannamei. The mRNA of PcMafG-like was expressed in all tested tissues, and the highest expression was in muscle tissue. Under stimulation of Cu 2+ and Cd 2+ , PcMafG-like was significantly up-regulated in hepatopancreas and gill, and the same result was testified by situ hybridization. The representative antioxidant genes, CAT, GPx and CZ-SOD, were significantly induced by Cu 2+ ; CAT and GPx was induced by Cd 2+ . PcMafG-dsRNA significantly inhibited the expression of these up-regulated genes, but also inhibited the expression of other detected genes CZ-SOD, GST-θ and GST-1like. The antioxidant effect of PcMafG-like was further verified by oxidative stress markers (T-SOD, CuZnSOD, GPx, CAT, GSH and MDA) kits. Cu 2+ and Cd 2+ could induce the contents of these oxidative stress markers (MDA, GSH, CZ-SOD, CAT in Cu 2+ /Cd 2+ treated group, and GSH-Px in Cd 2+ group), while interference of PcMafG-like significantly inhibited the up-regulation. Furthermore, hematoxylin-eosin staining experiments showed that the degree of pathological damage was dose-dependent and time-dependent, and the pathological damage was more serious after dsRNA interfered with PcMafG-like. In addition, subcellular localization showed that PcMafG-like gene existed in nucleus. The recombinant protein PcMafG-like was expressed and purified in prokaryotic expression. The affinity analysis of promoter by agarose gel electrophoresis suggested that PcMafG-like could bind with CAT promoter in vitro. This indicated that PcMafG-like could activate antioxidant genes., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022. Published by Elsevier B.V.)

Published

2022

40. Development and validation of SSR markers related to flower color based on full-length transcriptome sequencing in Chrysanthemum.

Author

Shi Z, Zhao W, Li Z, Kang D, Ai P, Ding H, and Wang Z

Subjects

Transcriptome genetics, DNA, Complementary metabolism, Microsatellite Repeats genetics, Flowers genetics, Flowers metabolism, Chrysanthemum genetics

Abstract

Chrysanthemum (Chrysanthemum moriforlium Ramat.) is one of the most popular flowers worldwide, with very high ornamental and economic values. However, the limitations of available DNA molecular markers and the lack of full genomic sequences hinder the study of genetic diversity and the molecular breeding of chrysanthemum. Here, we developed simple sequence repeat (SSR) from the full-length transcriptome sequences of chrysanthemum cultivar 'Hechengxinghuo'. A total of 11,699 SSRs with mono-, di-, tri-, tetra-, penta- and hexanucleotide repeats were identified, of which eight out of eighteen SSR loci identified based on sixteen transcripts participated in carotenoid metabolism or anthocyanin synthesis were validated as polymorphic SSR markers. These SSRs were used to classify 117 chrysanthemum accessions with different flower colors at the DNA and cDNA levels. The results showed that four SSR markers of carotenoid metabolic pathway divided 117 chrysanthemum accessions into five groups at cDNA level and all purple chrysanthemum accessions were in the group III. Furthermore, the SSR marker CHS-3, LCYE-1 and 3MaT may be related to green color and the PSY-1b marker may be related to yellow color. Overall, our work may be provide a novel method for mining SSR markers associated with specific traits., (© 2022. The Author(s).)

Published

2022

41. YAP affects the efficacy of liver progenitor cells transplantation in CCl 4 -induced acute liver injury.

Author

Dai W, Shen Z, Guo Y, Wang J, Li X, Wang J, Lu L, Cai X, and Li Y

Subjects

Mice, Animals, RNA, Small Interfering metabolism, DNA, Complementary metabolism, Stem Cells, Hepatocytes, Cell Proliferation, Inflammation pathology, Liver metabolism, Liver Regeneration

Abstract

The liver is a highly regenerative organ. During acute liver injury, the remaining hepatocytes rapidly proliferate to restore liver parenchyma and liver function. However, hepatocytes-driven regeneration is compromised in severe liver injury; instead, liver progenitor cells (LPCs) proliferate and differentiate into hepatocytes or cholangiocytes to restore mass and function of liver. The Hippo signaling pathway is of vital importance in liver regeneration, and Yes-associated protein (YAP) is the key component of the Hippo pathway. The therapeutic role of YAP has been well studied in hepatocytes-driven liver regeneration. However, the role of LPCs transplantation in acute liver injury has not been defined. Here, we investigated the therapeutic effect of splenic-transplantation of LPCs in CCl 4 -induced acute liver injury and explored the role of YAP during the procedure. LPCs isolated from choline-deficient, ethionine-supplemented diet (CDE) model were infected with GFP-YAP cDNA lentiviral vector, GFP-YAP shRNA lentiviral vector, and GFP lentiviral vector as control, respectively. At 48 h after CCl 4 injection, PBS (control group), GFP lentiviral vector-infected LPCs (GFP-LPC group), GFP-YAP cDNA lentiviral vector-infected LPCs (YAP-LPC group) and GFP-YAP shRNA lentiviral vector-infected LPCs (sh-YAP-LPC group) were injected into spleens in CCl 4 -treated mice. Histological and serological analyses were performed to evaluate pathology and liver function. The effect of LPCs on the proliferation of hepatocytes and inflammation was investigated. We demonstrated that intra-splenic transplantation of LPCs alleviates CCl 4 -induced acute liver injury and YAP signaling acts a key role during the procedure. Further studies suggested that LPCs alleviate acute liver injury by promoting pre-existing hepatocytes proliferation rather than differentiating into hepatocytes. Furthermore, intra-splenic transplantation of LPCs attenuates inflammation, which facilitates tissue repair in acute liver injury. In conclusion, LPCs transplantation is a potential treatment for acute liver injury and YAP is a prospective therapeutic target in acute liver injury., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Lungen Lu reports financial support was provided by the National Natural Science Foundation of China. Lungen Lu reports a relationship with the National Natural Science Foundation of China that includes: funding grants.., (Copyright © 2022. Published by Elsevier Inc.)

Published

2022

42. Construction of full-length cDNA infectious clones of Chilli veinal mottle virus.

Author

Peng Q, Yang D, Yang T, Cheng Y, Yang Y, and Xi D

Subjects

DNA, Complementary genetics, DNA, Complementary metabolism, Nicotiana, Alanine, Clone Cells, Plant Diseases, Potyvirus genetics

Abstract

Chilli veinal mottle virus (ChiVMV), a member of the genus Potyvirus in the family Potyviridae, causes severe diseases and poses a great threat to solanaceous crops. Reverse genetics technology is an efficient tool to facilitate the study of virus biology and pathogenicity. However, the construction of an infectious cDNA clone of ChiVMV is yet to be reported. In this study, full-length cDNA infectious clones of ChiVMV and GFP-tagged ChiVMV were constructed using yeast homologous recombination for the first time. These infectious clones were able to successfully infect host plants (Nicotiana benthamiana, Nicotiana tabacum and Solanum lycopersicum) by Agrobacterium-mediated infiltration and cause vein banding and leaf curling symptoms. Mutations were introduced to pChiVMV-GFP to investigate the role of key amino acids in ChiVMV 6K2. The results showed that substitution mutants of leucine (L 9, 11 ) to alanine acid (A), tryptophan (W 15 ) to alanine acid (A), and glycine (G 29, 33 ) to valine acid (V) reduced the viral accumulation and the mutant clones were unable to induce the symptoms in N. benthamiana plants. Taken together, these infectious clones we developed will be effective tools for future studies of the function of viral factors encoded by ChiVMV and the interactions between ChiVMV and its different host plants., Competing Interests: Declaration of interests The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

43. Brevinin-2PN, an antimicrobial peptide identified from dark-spotted frog (Pelophylax nigromaculatus), exhibits wound-healing activity.

Author

Fan XL, Yu SS, Zhao JL, Li Y, Zhan DJ, Xu F, Lin ZH, and Chen J

Subjects

Amino Acid Sequence, Animals, Anti-Bacterial Agents metabolism, Antimicrobial Cationic Peptides metabolism, Anura genetics, DNA, Complementary metabolism, Humans, Protein Sorting Signals, Ranidae genetics, Skin metabolism, Amphibian Proteins genetics, Amphibian Proteins metabolism, Antimicrobial Peptides

Abstract

Brevinins exhibit a wide range of structural features and strong biological activities. Brevinin-2, derived from several amphibians, has shown antimicrobial activities. However, little is known about the wound-healing activity of brevinin-2. In this study, brevinin-2 cDNA was identified from the skin transcriptome of the dark-spotted frog (Pelophylax nigromaculatus) and it comprises a signal peptide, a propeptide, and a mature peptide. Sequence alignment with brevinin-2 derived from other amphibians showed variability of the mature peptide, and the presence of a C-terminal cyclic heptapeptide domain (Cys-Lys-Xaa4-Cys) in the mature peptide. Dark-spotted frog brevinin-2 belonged to the brevinin-2 cluster and was closely related to brevinin-2HB1 from Pelophylax hubeiensis. Synthetic dark-spotted frog brevinin-2 mature peptide (brevinin-2PN) exhibited antibacterial activity against several pathogens by destroying cell membrane integrity and hydrolysis of genomic DNA. Brevinin-2PN exhibited significant wound-healing activity by accelerating the healing of human skin fibroblast cell scratches, influencing cell migration, and stimulating gene expression of growth factors., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

44. Functions of lysin motif (LysM)-containing protein in antibacterial responses of sea cucumbers, Apostichopus japonicus.

Author

Jiang J, Zhao Z, Gao S, Chen Z, Pan Y, Guan X, Jiang P, Li P, Wang B, Sun H, Dong Y, and Zhou Z

Subjects

Animals, DNA, Complementary genetics, DNA, Complementary metabolism, Recombinant Proteins metabolism, Anti-Bacterial Agents metabolism, Immunity, Innate genetics, Stichopus, Sea Cucumbers genetics

Abstract

The lysin motif (LysM)-containing protein is one of widespread pattern-recognition receptors in prokaryotes and eukaryotes. Numerous LysM-containing gene sequences are present in gene databases; however, few have been well characterized, especially in echinoderms. In this study, the full-length cDNA of a novel LysM-containing gene was obtained from the sea cucumber Apostichopus japonicus, named AjLysM-1, using polymerase chain reaction (PCR) combined with rapid amplification of cDNA ends. We prepared and expressed recombinant AjLysM-1 protein (rAjLysM-1) and determined its pathogen-recognition ability by enzyme-linked immunosorbent and immunofluorescence assays. We also analyzed the tissue expression pattern and response to immune challenges of AjLysM-1 using quantitative real-time reverse transcription-PCR and in situ hybridization. The AjLysM-1 protein was predicted to be an intracellular non-secreted LysM-containing protein, highly homologous to the same protein in other marine echinoderms. AjLysM-1 transcripts were highest expressed in coelomocytes and were strikingly induced by challenge with representative bacterial and fungal polysaccharides. rAjLysM-1 showed weak binding to mannan, Pseudoalteromonas nigrifaciens, and Shewanella baltica, implying that AjLysM-1 might provide inadequate defense against Gram-negative bacteria and fungi. Notably, rAjLysM-1 also interacted with tyrosine protein kinase and filamin-B, indicating that it could be involved in focal adhesion in A. japonicus. These findings improve our understanding of the functions of LysM-containing proteins in marine echinoderms., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

45. Long Noncoding RNA TPRG1-AS1 Suppresses Migration of Vascular Smooth Muscle Cells and Attenuates Atherogenesis via Interacting With MYH9 Protein.

Author

Ren X, Zhu H, Deng K, Ning X, Li L, Liu D, Yang B, Shen C, Wang X, Wu N, Chen S, Gu D, and Wang L

Subjects

Humans, Mice, Animals, Muscle, Smooth, Vascular metabolism, Neointima metabolism, Actins metabolism, Proteasome Endopeptidase Complex metabolism, DNA, Complementary metabolism, DNA, Complementary pharmacology, In Situ Hybridization, Fluorescence, Myosin Heavy Chains genetics, Myosin Heavy Chains metabolism, Cell Proliferation, Myocytes, Smooth Muscle metabolism, Cell Movement, Cytoskeletal Proteins metabolism, Apolipoproteins E genetics, Apolipoproteins metabolism, RNA, Long Noncoding genetics, RNA, Long Noncoding metabolism, Plaque, Atherosclerotic metabolism, Atherosclerosis genetics, Atherosclerosis prevention & control, Atherosclerosis metabolism, MicroRNAs genetics

Abstract

Background: Migration of human aortic smooth muscle cells (HASMCs) contributes to the pathogenesis of atherosclerosis. This study aims to functionally characterize long noncoding RNA TPRG1-AS1 (tumor protein p63 regulated 1, antisense 1) in HASMCs and reveal the underlying mechanism of TPRG1-AS1 in HASMCs migration, neointima formation, and subsequent atherosclerosis., Methods: The expression of TPRG1-AS1 in atherosclerotic plaques was verified a series of in silico analysis and quantitative real-time polymerase chain reaction analysis. Northern blot, rapid amplification of cDNA ends and Sanger sequencing were used to determine its full length. In vitro transcription-translation assay was used to investigate the protein-coding capacity of TPRG1-AS1. RNA fluorescent in situ hybridization was used to confirm its subcellular localization. Loss- and gain-of-function studies were used to investigate the function of TPRG1-AS1. Furthermore, the effect of TPRG1-AS1 on the pathological response was evaluated in carotid balloon injury model, wire injury model, and atherosclerosis model, respectively., Results: TPRG1-AS1 was significantly increased in atherosclerotic plaques. TPRG1-AS1 did not encode any proteins and its full length was 1279nt, which was bona fide a long noncoding RNA. TPRG1-AS1 was mainly localized in cytoplasmic and perinuclear regions in HASMCs. TPRG1-AS1 directly interacted with MYH9 (myosin heavy chain 9) protein in HASMCs, promoted MYH9 protein degradation through the proteasome pathway, hindered F-actin stress fiber formation, and finally inhibited HASMCs migration. Vascular smooth muscle cell-specific transgenic overexpression of TPRG1-AS1 significantly reduced neointima formation, and attenuated atherosclerosis in apolipoprotein E knockout ( Apoe -/- ) mice., Conclusions: This study demonstrated that TPRG1-AS1 inhibited HASMCs migration through interacting with MYH9 protein and consequently suppressed neointima formation and atherosclerosis.

Published

2022

46. Poplar leaf abscission through induced chlorophyll breakdown by Mg-dechelatase.

Author

Ito H, Saito H, Fukui M, Tanaka A, and Arakawa K

Subjects

Chlorophyll metabolism, DNA, Complementary metabolism, DNA, Complementary pharmacology, Dexamethasone metabolism, Dexamethasone pharmacology, Enzymes, Ethylenes metabolism, Gene Expression Regulation, Plant, Plant Leaves metabolism, Trees metabolism, Arabidopsis metabolism, Populus genetics, Populus metabolism

Abstract

Chlorophyll breakdown is observed during senescence. The first step in chlorophyll breakdown is the removal of central Mg by Mg-dechelatase. This reaction is the rate-limiting step in the chlorophyll breakdown pathway. We evaluated the effect of induced chlorophyll breakdown on abscission through the removal of Mg by Mg-dechelatase. Poplar transformants carrying the dexamethasone-inducible Mg-dechelatase gene were prepared using the Arabidopsis Stay-Green1 cDNA. When leaves were treated with dexamethasone, chlorophyll was degraded, photosynthetic capacity was reduced, and an abscission zone was formed, resulting in leaf abscission. In addition, ethylene, which plays an important role during senescence, was produced in this process. Thus, chlorophyll breakdown induces the phenotype in the same way as commonly observed during leaf senescence. This study suggests a physiological role of chlorophyll breakdown in the leaf abscission of deciduous trees. Furthermore, this study shows that the dexamethasone-inducible gene expression system is an available option for deciduous tree studies., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

47. A basal actinopterygian melanocortin receptor: Molecular and functional characterization of an Mc2r ortholog from the Senegal bichir (Polypterus senegalus).

Author

Shaughnessy CA, Jensen MF, and Dores RM

Subjects

Adrenocorticotropic Hormone pharmacology, Animals, CHO Cells, Chickens metabolism, Cricetinae, Cricetulus, DNA, Complementary metabolism, Fishes genetics, Melanocyte-Stimulating Hormones metabolism, Senegal, alpha-MSH metabolism, Receptor, Melanocortin, Type 2 genetics, Receptor, Melanocortin, Type 2 metabolism, Receptors, Melanocortin metabolism

Abstract

In bony vertebrates, melanocortin 2 receptor (Mc2r) specifically binds adrenocorticotropic hormone (ACTH) and is responsible for mediating anterior pituitary signaling that stimulates corticosteroid production in the adrenal gland/interrenal cells. In bony fishes Mc2r requires the chaperoning of an accessory protein (Mrap1) to traffic to the membrane surface and bind ACTH. Here, we evaluated the structure and pharmacological properties of Mc2r from the Senegal bichir (Polypterus senegalus), which represents the most basal bony fish from which an Mc2r has been pharmacologically studied to date. In our experiments, cDNA constructs of the Mc2r from the Senegal bichir (sbMc2r) and various vertebrate Mrap1s were heterologously co-expressed in Chinese hamster ovary (CHO) cells, stimulated by ACTH or melanocyte-stimulating hormone (α-MSH) ligands, and assessed using a luciferase reporter gene assay. When expressed without an Mrap1, sbMc2r was not activated by ACTH. When co-expressed with Mrap1 from either chicken (Gallus gallus) or bowfin (Amia calva), sbMc2r could be activated in a dose-dependent manner by ACTH, but not α-MSH. Co-expression of sbMrap2 with sbMc2r resulted in no detectable activation of the receptor. Collectively, these results demonstrate that sbMc2r has pharmacological properties similar to those of Mc2rs of later-evolved bony fishes, such as Mrap1 dependence and ACTH selectivity, indicating that these qualities of Mc2r function are ancestral to all bony fish Mc2rs., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

48. Identification of putative transcriptomic biomarkers in irritable bowel syndrome (IBS): Differential gene expression and regulation of TPH1 and SERT by vitamin D.

Author

Grozić A, Coker K, Dussik CM, Sabir MS, Sabir Z, Bradley A, Zhang L, Park J, Yale S, Kaneko I, Hockley M, Harris LA, Lunsford TN, Sandrin TR, and Jurutka PW

Subjects

Humans, Biomarkers metabolism, Diarrhea pathology, DNA, Complementary metabolism, Intestinal Mucosa metabolism, RNA metabolism, RNA-Directed DNA Polymerase metabolism, Serotonin genetics, Serotonin metabolism, Transcriptome, Tryptophan Hydroxylase genetics, Vitamin D metabolism, Vitamins metabolism, Irritable Bowel Syndrome diagnosis, Irritable Bowel Syndrome genetics, Irritable Bowel Syndrome complications

Abstract

Irritable bowel syndrome (IBS) is one of the most common gastrointestinal disorders and affects approximately 4% of the global population. The diagnosis of IBS can be made based on symptoms using the validated Rome criteria and ruling out commonly occurring organic diseases. Although biomarkers exist for "IBS mimickers" such as celiac disease and inflammatory bowel disease (IBD), no such test exists for IBS. DNA microarrays of colonic tissue have been used to identify disease-associated variants in other gastrointestinal (GI) disorders. In this study, our objective was to identify biomarkers and unique gene expression patterns that may define the pathological state of IBS. Mucosal tissue samples were collected from the sigmoid colon of 29 participants (11 IBS and 18 healthy controls). DNA microarray analysis was used to assess gene expression profiling. Extraction and purification of RNA were then performed and used to synthesize cDNA. Reverse transcriptase quantitative polymerase chain reaction (RT-qPCR) was employed to identify differentially expressed genes in patients diagnosed with IBS compared to healthy, non-IBS patient-derived cDNA. Additional testing probed vitamin D-mediated regulation of select genes associated with serotonergic metabolism. DNA microarray analyses led to the identification of 858 differentially expressed genes that may characterize the IBS pathological state. After screening a series of genes using a combination of gene ontological analysis and RT-qPCR, this spectrum of potential IBS biomarkers was narrowed to 23 genes, some of which are regulated by vitamin D. Seven putative IBS biomarkers, including genes involved in serotonin metabolism, were identified. This work further supports the hypothesis that IBS pathophysiology is evident within the human transcriptome and that vitamin D modulates differential expression of genes in IBS patients. This suggests that IBS pathophysiology may also involve vitamin D deficiency and/or an irregularity in serotonin metabolism., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

49. Overexpression of the Eucommia ~ ulmoides Aquaporin, EuPIP1;1 , Promotes Leaf Growth, Flowering and Bolting, and Stress Tolerance in Arabidopsis .

Author

Chen J, Huang Y, Li J, Li Y, Zeng X, and Zhao D

Subjects

DNA, Complementary metabolism, Droughts, Gene Expression Regulation, Plant, Plant Leaves genetics, Plant Leaves metabolism, Plant Proteins genetics, Plant Proteins metabolism, Plants, Genetically Modified metabolism, Salt Tolerance genetics, Stress, Physiological genetics, Aquaporins genetics, Aquaporins metabolism, Arabidopsis metabolism, Eucommiaceae genetics

Abstract

Plasma membrane intrinsic protein (PIP) is one of the largest subfamilies of Aquaporins ( AQPs ) and plays an important role in plant growth and development, and resistance to abiotic stress. In this study, the full length of the EuPIP1;1 cDNA was cloned from Eucommia ulmoides using the rapid amplification of cDNA ends (RACE) method. The EuPIP1;1 gene was induced by drought treatment and expressed in all tested tissues, with the highest expression level in fruit. The subcellular localization showed that EuPIP1;1 was located in the plasma membrane. Constitutive overexpression of EuPIP1;1 in Arabidopsis thaliana could promote leaf growth and development, and accelerate bolting and flowering. Six genes related to growth and flowering ( AtPIF4 , AtTCP14 , AtCRY1 , AtCRY2 , AtFCA and AtFT ) were significantly up-regulated in transgenic lines. Further, EuPIP1;1 gene improved resistance to drought and salt stress in transgenic Arabidopsis . Under drought and salt stress treatment, the transgenic lines had a higher germination rate and accumulation of osmotic substances, lower membrane damage, and could maintain ion homeostasis. Our results suggest that EuPIP1;1 plays an essential role in plant growth and development and in the response to drought and salt stress.

Published

2022

50. AaCaM is required for infection structure differentiation and secondary metabolites in pear fungal pathogen Alternaria alternata.

Author

Jiang Q, Mao R, Li Y, Bi Y, Liu Y, Zhang M, Li R, Yang Y, and Prusky DB

Subjects

Alternaria metabolism, Calcium metabolism, Calmodulin genetics, Calmodulin metabolism, DNA, Complementary metabolism, Melanins metabolism, Pharmaceutical Preparations, Plant Diseases microbiology, Trifluoperazine metabolism, Pyrus genetics, Pyrus metabolism, Pyrus microbiology

Abstract

Aims: Calmodulin (CaM), acts as a kind of multifunctional Ca 2+ sensing protein, which is ubiquitous in fungi, is highly conserved across eukaryotes and is involved in the regulation of a range of physiological processes, including morphogenesis, reproduction and secondary metabolites biosynthesis. Our aim was to understand the characteristics and functions of AaCaM in Alternaria alternata, the causal agent of pear black spot., Methods and Results: A 450 bp cDNA sequence of AaCaM gene of A. alternata was cloned by the PCR homology method. Sequence analysis showed that this protein encoded by AaCaM was a stable hydrophilic protein and had a high similarity to Neurospora crassa (CAA50271.1) and other fungi. RT-qPCR analysis determined that AaCaM was differentially upregulated during infection structural differentiation of A. alternata both on hydrophobic and pear wax extract-coated surface, with a 3.37-fold upregulation during the hydrophobic induced appressorium formation period (6 h) and a 1.46-fold upregulation during the infection hyphae formation period (8 h) following pear wax induction. Pharmaceutical analysis showed that the CaM-specific inhibitor, trifluoperazine (TFP), inhibited spore germination and appressorium formation, and affected toxins and melanin biosynthesis in A. alternata., Conclusions: AaCaM plays an important role in regulating infection structure differentiation and secondary metabolism of A. alternata., Significance and Impact of Study: Our study provides a theoretical basis for further in-depth investigation of the specific role of AaCaM in the calcium signalling pathway underlying hydrophobic and pear wax-induced infection structure differentiation and pathogenicity of A. alternata., (© 2022 Society for Applied Microbiology.)

Published

2022