synthetic genes
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2022 ◽  
Author(s):  
Kemeng Li ◽  
Jianlu Dai ◽  
Juanjuan Liu ◽  
Tianyi Hao ◽  
Weiqing He

Abstract Background: Carrimycin is a new approved class I antibiotic in China. The novel carrimycin producing strain, Streptomyces spiramyceticus 54IA, was constructed by CRISPR-Cas9 editing system without insertion of antibiotics resistant gene. The problem of low yield limits this strain in large scale fermentation. In this study, the carrimycin production was significantly improved by strain mutagenesis coupled metabolic engineering. Results: The sspD gene is responsible for degradation of triacylglycerol to provide precursors of the polyketide biosynthesis. The extra sspD gene controlled by the promoters of pks and bsm42 genes could moderately enhance carrimycin production. The Bsm42 was identified to play a pathway-specific positive regulator for carrimycin biosynthesis. Due to production of carrimycin significantly enhanced by bsm42 overexpression, the two different length promoters of bsm42 individually ligated with two reporter genes were used to monitor bsm42 expression for screening the higher carrimycin production mutants treated by plasma and ultraviolet. 47% of the 608 selected mutants had higher fermentation titer than the starting strain. The shorter promoter of bsm42 displayed more appropriate for selection of the carrimycin production improved mutants. The F2R-15 mutant had highest titer (1010±30 μg/mL), which was about 9 times higher than that of 54IA strain. Comparative analysis of transcriptome profiles of F2R-15 mutant and 54IA strains found 158 differential expression genes with more than 2 fold-changes. The up-regulated genes were associated with macrolide precursor biosynthesis, macrolide-inactivation, antibiotics transporter, oxidative phosphorylation; while the most down-regulated genes were referring to the primary metabolites synthetic genes and biosynthetic genes of other secondary metabolites. Conclusion: These results suggested that manipulation of the positive regulatory gene bsm42 and traditional mutagenesis coupled with reporter-guided mutant selection method facilitated selection of carrimycin high-yielding mutants.


2021 ◽  
Author(s):  
Phung Thi Bich Hoa ◽  
Nguyen Hoang Tue ◽  
Huynh Thi Quynh Trang ◽  
Hoang Anh Thu ◽  
Le Ngoc Huyen Nhung ◽  
...  

Abstract This study reports the expression of 42 kDa chitinase genes from Trichoderma asperellum SH16 in peanut (Arachis hypogaea) roots under the regulation of tissue-specific Asy promoter through Agrobacterium tumefaciens-mediated transformation. The 42 kDa chitinase genes, including one wild-type sequence (Chi42) and two synthetic sequences (syncodChi42-1 and syncodChi42-2) which were optimized for codon usage for plant expression, were incorporated into the peanut genome and successfully expressed in their roots. The investigation revealed that the enzyme chitinase from two synthetic genes had higher activity than that from the wild-type gene, about 901 U/mg (140 U/mL) and 1124 U/mg (197 U/mL) vs about 508 U/mg (87 U/mL). Transgenic peanut roots also exhibited extracellular chitinase activity which was driven by signal peptide of rice amylase 3D gene against the pathogenic fungus Sclerotium rolfsii under in vitro conditions. The higher chitinase activity of two synthetic genes in peanut roots promises potential applications in the field of transgenic crops against phytopathogenic fungi.


2021 ◽  
Vol 12 ◽  
Author(s):  
Haoyu Wang ◽  
Fei Li ◽  
Wenrui Ban ◽  
Jing Zhang ◽  
Guiqi Zhang

Objective: Intervertebral disk degeneration (IDD) is a major cause of pain in the back, neck, and radiculus. Mesenchymal stem cells (MSCs)-derived extracellular vesicles (EVs) are therapeutic in musculoskeletal degenerative diseases such as IDD. This study explored the effect and functional mechanism of human bone MSCs (hBMSCs)-derived EVs in proliferation and apoptosis of degenerated nucleus pulposus cells (DNPCs) and extracellular matrix (ECM) synthesis.Methods: Extracellular vesicles were isolated from hBMSCs and identified. DNPCs were induced by TNF-α. EVs were incubated with DNPCs for 24h. Internalization of EVs by DNPCs, DNPCs proliferation, apoptosis, and expressions of ECM synthetic genes, degrading genes and miR-129-5p were assessed. Downstream target genes of miR-129-5p were predicted. Target relation between miR-129-5p and SRY-box transcription factor 4 (SOX4) was verified. DNPCs proliferation, apoptosis, and ECM synthesis were measured after treatment with EVs and miR-129-5p inhibitor or SOX4 overexpression. Expressions of SOX4 and Wnt/β-catenin pathway-related proteins were determined.Results: hBMSC-EVs promoted DNPCs proliferation, inhibited apoptosis, increased expressions of ECM synthetic genes, and reduced expressions of ECM degrading genes. hBMSC-EVs carried miR-129-5p into DNPCs. Silencing miR-129-5p in EVs partially inverted the effect of EVs on DNPCs proliferation and ECM synthesis. miR-129-5p targeted SOX4. SOX4 overexpression annulled the effect of EVs on DNPCs proliferation and ECM synthesis. Expressions of Wnt1 and β-catenin were decreased in EVs-treated DNPCs, while silencing miR-129-5p in EVs promoted expressions of Wnt1 and β-catenin.Conclusion: hBMSC-EVs promoted DNPCs proliferation and ECM synthesis by carrying miR-129-5p into DNPCs to target SOX4 and deactivating the Wnt/β-catenin axis.


Agronomy ◽  
2021 ◽  
Vol 11 (9) ◽  
pp. 1725
Author(s):  
Chan-Saem Gil ◽  
Soon-Jae Kwon ◽  
Ho-Young Jeong ◽  
Chanhui Lee ◽  
Oak-Jin Lee ◽  
...  

Irregular rooting of rosemary stem cuttings, causing differences in either stem maturation or responses to growth conditions, restricts uniform production. Here, rooting efficiency of apical, middle, and basal cuttings from rosemary stems was evaluated by controlling light conditions to prevent irregular rooting. The types of light applied to the cuttings were natural sunlight (NSL), fluorescent, red, and blue (BL) light. Among these light sources, BL significantly induced root growth of not only basal cuttings, but also apical and middle cuttings, whereas NSL induced poor root formation in apical and middle cuttings. In particular, the roots of apical cuttings exposed to BL grew twice as fast as those exposed to other types of light. The overexpression of BL-induced IAA synthetic genes confirmed the rooting patterns. IAA synthetic genes were significantly upregulated by BL in the apical and middle cuttings. Irradiating with 50 μmol photons m−2 s−1 BL resulted in similar root production levels among the cutting positions with high biomass, guaranteeing the successful production of uniform cuttings. Thus, the application of proper high-intensity BL promoted healthy, similar-quality rosemary cuttings among stem cutting positions.


PROTOPLASMA ◽  
2021 ◽  
Author(s):  
Can Si ◽  
Chunmei He ◽  
Jaime A. Teixeira da Silva ◽  
Zhenming Yu ◽  
Jun Duan

Biomedicines ◽  
2021 ◽  
Vol 9 (6) ◽  
pp. 628
Author(s):  
Dagmara Baraniak ◽  
Jerzy Boryski

This review covers studies which exploit triazole-modified nucleic acids in the range of chemistry and biology to medicine. The 1,2,3-triazole unit, which is obtained via click chemistry approach, shows valuable and unique properties. For example, it does not occur in nature, constitutes an additional pharmacophore with attractive properties being resistant to hydrolysis and other reactions at physiological pH, exhibits biological activity (i.e., antibacterial, antitumor, and antiviral), and can be considered as a rigid mimetic of amide linkage. Herein, it is presented a whole area of useful artificial compounds, from the clickable monomers and dimers to modified oligonucleotides, in the field of nucleic acids sciences. Such modifications of internucleotide linkages are designed to increase the hybridization binding affinity toward native DNA or RNA, to enhance resistance to nucleases, and to improve ability to penetrate cell membranes. The insertion of an artificial backbone is used for understanding effects of chemically modified oligonucleotides, and their potential usefulness in therapeutic applications. We describe the state-of-the-art knowledge on their implications for synthetic genes and other large modified DNA and RNA constructs including non-coding RNAs.


Author(s):  
Chandrayee Talukdar ◽  
Swastik Sastri

The important properties of spider dragline silk and other protein polymers will find many applications. We have demonstrated the production of spider silk, which has many important properties, are produced from the bacteria including Escherichia coli. The productions of high molecular weight spider drag line encoded by synthetic genes. Silk protein can be efficiently produced by the microbial system has become an advantageous method like quick secretion and simple product recovery has become an efficient method .From the observation of various experiments done by several scientists has shown silk made in laboratory. The study of RIKEN centre for sustainable resource science has shown that spider silk can be produce huge amount. Observation shown that joining of the fragments by split intein sequence  which then cut itself to yield full name protein .Spun into fibers make the microbial spider silk tough , stretchable and stronger. Better modification of bioengineering can increase the amount of production.


Endocrinology ◽  
2021 ◽  
Author(s):  
James T Nguyen ◽  
Ryan R Riessen ◽  
Tongyu Zhang ◽  
Collin Kieffer ◽  
Sayeepriyadarshini Anakk

Abstract Small heterodimer partner (SHP) is a crucial regulator of bile acid (BA) transport and synthesis; however, its intestine-specific role is not fully understood. Here, we report that male Intestine-specific Shp Knockout (IShpKO) mice exhibit higher intestinal BA but not hepatic or serum BA levels compared to the f/f Shp animals when challenged with an acute (5-day) 1% cholic acid (CA) diet. We also find that BA synthetic genes Cyp7A1 and Cyp8b1 are not repressed to the same extent in IShpKO compared to control mice post-CA challenge. Loss of intestinal SHP did not alter Fxrα mRNA but increased Asbt (BA ileal uptake transporter) and Ostα (BA ileal efflux transporter) expression even under chow-fed conditions. Surprisingly, the acute CA diet in IShpKO did not elicit the expected induction of Fgf15 but was able to maintain the suppression of Asbt, and Ostα/β mRNA levels. At the protein level, ASBT was downregulated, while OSTα/β expression was induced and maintained regardless of diet. Examination of ileal histology in IShpKO mice challenged with acute CA diet revealed reduced villi length and goblet cell numbers. However, no difference in villi length, and the expression of BA regulator and transporter genes was seen between f/f Shp and IShpKO animals after chronic (14-day) CA diet suggesting a potential adaptive response. We found the upregulation of the Pparα-Ugt axis after 14-days of CA diet may reduce the BA burden and compensate for the ileal SHP function. Thus, our study reveals that ileal SHP expression contributes to both overall intestinal structure and BA homeostasis.


PLoS ONE ◽  
2021 ◽  
Vol 16 (3) ◽  
pp. e0248985
Author(s):  
Bonnie C. Carney ◽  
Taryn E. Travis ◽  
Lauren T. Moffatt ◽  
Laura S. Johnson ◽  
Melissa M. McLawhorn ◽  
...  

There are limited treatments for dyschromia in burn hypertrophic scars (HTSs). Initial work in Duroc pig models showed that regions of scar that are light or dark have equal numbers of melanocytes. This study aims to confirm melanocyte presence in regions of hypo- and hyper-pigmentation in an animal model and patient samples. In a Duroc pig model, melanocyte presence was confirmed usingen facestaining. Patients with dyschromic HTSs had demographic, injury details, and melanin indices collected. Punch biopsies were taken of regions of hyper-, hypo-, or normally pigmented scar and skin. Biopsies were processed to obtain epidermal sheets (ESs). A subset of ESs wereen facestained with melanocyte marker, S100β. Melanocytes were isolated from a different subset. Melanocytes were treated with NDP α-MSH, a pigmentation stimulator. mRNA was isolated from cells, and was used to evaluate gene expression of melanin-synthetic genes. In patient and pig scars, regions of hyper-, hypo-, and normal pigmentation had significantly different melanin indices. S100βen facestaining showed that regions of hyper- and hypo-pigmentation contained the same number of melanocytes, but these cells had different dendricity/activity. Treatment of hypo-pigmented melanocytes with NDP α-MSH produced melanin by microscopy. Melanin-synthetic genes were upregulated in treated cells over controls. While traditionally it may be thought that hypopigmented regions of burn HTS display this phenotype because of the absence of pigment-producing cells, these data show that inactive melanocytes are present in these scar regions. By treating with a pigment stimulator, cells can be induced to re-pigment.


2021 ◽  
Vol 4 (1) ◽  
Author(s):  
Li Zhang ◽  
Pan Luo ◽  
Jie Bai ◽  
Lei Wu ◽  
Dong-Wei Di ◽  
...  

AbstractThe auxin IAA is a vital plant hormone in controlling growth and development, but our knowledge about its complicated biosynthetic pathways and molecular regulation are still limited and fragmentary. cytokinin induced root waving 2 (ckrw2) was isolated as one of the auxin-deficient mutants in a large-scale forward genetic screen aiming to find more genes functioning in auxin homeostasis and/or its regulation. Here we show that CKRW2 is identical to Histone Monoubiquitination 1 (HUB1), a gene encoding an E3 ligase required for histone H2B monoubiquitination (H2Bub1) in Arabidopsis. In addition to pleiotropic defects in growth and development, loss of CKRW2/HUB1 function also led to typical auxin-deficient phenotypes in roots, which was associated with significantly lower expression levels of several functional auxin synthetic genes, namely TRP2/TSB1, WEI7/ASB1, YUC7 and AMI1. Corresponding defects in H2Bub1 were detected in the coding regions of these genes by chromatin immunoprecipitation (ChIP) analysis, indicating the involvement of H2Bub1 in regulating auxin biosynthesis. Importantly, application of exogenous cytokinin (CK) could stimulate CKRW2/HUB1 expression, providing an epigenetic avenue for CK to regulate the auxin homeostasis. Our results reveal a previously unknown mechanism for regulating auxin biosynthesis via HUB1/2-mediated H2Bub1 at the chromatin level.


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