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Objective:To learn about the clustered regularly interspaced short palindromic repeats (CRISPR) genotyping of Yersinia pestis in Yushu Tibetan Autonomous Prefecture (Yushu for short), Qinghai Province, and to explore its genetic characteristics. Methods:In this study, 44 representative strains isolated from local natural plague focus in Yushu from 1963 to 2007 were selected as experimental objects to extract DNA. Primers targeting the three CRISPR loci (YPa, YPb, and YPc) were designed for PCR amplification. The amplified products were sequenced and analyzed to identify the CRISPR spacer, and to determine the CRISPR genotypes and clusters.Results:Twenty-three spacers including 14 of YPa, 6 of YPb and 3 of YPc were observed among 44 strains, of which 2 spacers (a106 and a107) were firstly identified. According to the spacer arrays, the strains were divided into 15 CRISPR genotypes and classified into 6 CRISPR clusters which were Cb4, Cc3', Ca7, Ca7', CaΔ5' and Ca35', respectively. Among them, Ca7 was the most epidemic dominant cluster (34 strains) in Yushu.Conclusion:The CRISPR loci of Yersinia pestis in Yushu have multiple genotypes, high genetic polymorphism, and complex population structure.
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Polyglutamine (PolyQ) diseases are a group of clinically and genetically heterogeneous neurodegenerative diseases, due to an expanded CAG repeat in a coding region of the respective genes leading to neurodegenerative phenotypes by selective neuronal loss. Overall, only part of variance (50%-70%) in age at onset is explained by (CAG)n length, suggesting genetic modifying factors independent of (CAG)n size may contribute to clinical heterogeneity. Here, the research history of genetic modifiers in polyQ diseases is reviewed, and the major findings and current research status are discussed.
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@#Abstract: Objective To establish a sensitive and specific nucleic acid detection method for Schistosoma japonicum based on loop-mediated isothermal amplification (LAMP) and clustered regularly interspaced short palindromic repeats (CRISPR) technology. Methods The LAMP primers, gRNA and ssDNA probe that target Schistosoma japonicum SjR2 genes were designed according to the principles of LAMP and CRISPR. The LAMP-CRISPR reaction system was established and optimized. The sensitivity and specificity of the method were evaluated against the ten-fold serial dilutions of plasmid containing SjR2 target sequences, as well as genomic DNA at different stages of Schistosoma japonicum and other parasites, including Fasciola hepatica, Schistosoma mansoni, Taenia saginata, Clonorchis sinensis, Ascaris lumbricoides, Necator americanus, Paragonimus westermani, and Echinococcus granulosus. Additionally, 15 schistosome-infected snail and 30 uninfected samples were tested by LAMP-CRISPR and LAMP methods, respectively, to evaluate the potential of this method for screening for infected snails. Results The developed LAMP-CRISPR method was able to specifically amplify and detect the SjR2 gene of S. japonicum. The optimal reaction temperature was 37 ℃, and the optimal reaction concentrations were both 40 nmol/L for gRNA and Cas12a protein. No cross-reaction was observed with genomic DNA from other parasites such as F. hepatica. The detection limit of the method was 10 copies/μL when testing 10-fold dilutions of recombinant plasmids as a template. Furthermore, the LAMP-CRISPR method was able to accurately detect genomic DNA from S. japonicum at various stages of development, including eggs, cercariae, schistosomula, juvenile worms, and adult worms. The results of testing 45 snail samples showed no significant difference between the LAMP-CRISPR and LAMP methods for detecting infected snails (χ2=0.05, P>0.05). The sensitivity and specificity of the LAMP-CRISPR method were 100.00% (15/15) and 96.67% (29/30), respectively, compared to the gold standard, while the sensitivity and specificity of the LAMP method were 100.00% (15/15) and 93.33% (28/30), respectively. Conclusions This established LAMP-CRISPR detection method presented good sensitivity, specificity and reliability, making it a promising tool for rapid detection and risk monitoring of S. japonicum.
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Candida albicans is one of the major causes of invasive fungal infections and a serious opportunistic pathogen in immunocompromised individuals. The antimicrobial peptide AMP-17 has prominent anti-Candida activity, and proteomic analysis revealed significant differences in the expression of cell wall (XOG1) and oxidative stress (SRR1) genes upon the action of AMP-17 on C. albicans, suggesting that AMP-17 may exert anti-C. albicans effects by affecting the expression of XOG1 and SRR1 genes. To further investigate whether XOG1 and SRR1 genes were the targets of AMP-17, C. albicans xog1Δ/Δ and srr1Δ/Δ mutants were constructed using the clustered regulatory interspaced short palindromic repeats-associated protein 9 (CRISPR/Cas9) system. Phenotypic observations revealed that deletion of two genes had no significant effect on C. albicans growth and biofilm formation, whereas XOG1 gene deletion affected in vitro stress response and mycelium formation of C. albicans. Drug sensitivity assay showed that the MIC80 values of AMP-17 against xog1Δ/Δ and srr1Δ/Δ mutants increased from 8 μg/mL (for the wild type C. albicans SC5314) to 16 μg/mL, while the MIC80 values against srr1Δ/Δ: : srr1 revertants decreased to the level of the wild type SC5314. In addition, the ability of AMP-17 to inhibit biofilm formation of both deletion strains was significantly reduced compared to that of wild type SC5314, indicating that the susceptibility of the deletion mutants to AMP-17 was reduced in both the yeast state and during biofilm formation. These results suggest that XOG1 and SRR1 genes are likely two of the potential targets for AMP-17 to exert anti-C. albicans effects, which may facilitate further exploration of the antibacterial mechanism of novel peptide antifungal drugs.
Subject(s)
Humans , Candida albicans , Antimicrobial Peptides , Proteomics , Peptides/pharmacology , Transcription Factors/metabolism , Antifungal Agents/pharmacologyABSTRACT
Abiotic stresses, predominately drought, heat, salinity, cold, and waterlogging, adversely affect cereal crops. They limit barley production worldwide and cause huge economic losses. In barley, functional genes under various stresses have been identified over the years and genetic improvement to stress tolerance has taken a new turn with the introduction of modern gene-editing platforms. In particular, clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein 9 (Cas9) is a robust and versatile tool for precise mutation creation and trait improvement. In this review, we highlight the stress-affected regions and the corresponding economic losses among the main barley producers. We collate about 150 key genes associated with stress tolerance and combine them into a single physical map for potential breeding practices. We also overview the applications of precise base editing, prime editing, and multiplexing technologies for targeted trait modification, and discuss current challenges including high-throughput mutant genotyping and genotype dependency in genetic transformation to promote commercial breeding. The listed genes counteract key stresses such as drought, salinity, and nutrient deficiency, and the potential application of the respective gene-editing technologies will provide insight into barley improvement for climate resilience.
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OBJECTIVES@#To provide a guideline for genealogy inference and family lineage investigation through a study of the mismatch tolerance distribution of Y-STR loci in Chinese Han male lineage.@*METHODS@#Three Han lineages with clear genetic relationships were selected. YFiler Platinum PCR amplification Kit was used to obtain the typing data of 35 Y-STR loci in male samples. The variation of Y-STR haplotypes in generation inheritance and the mismatch tolerance at 1-7 kinship levels were statistically analyzed.@*RESULTS@#Mutations in Y-STR were family-specific with different mutation loci and numbers of mutation in different lineages. Among all the mutations, 66.03% were observed on rapidly and fast mutating loci. At 1-7 kinship levels, the number of mismatch tolerance ranged from 0 to 5 on all 35 Y-STR loci, with a maximum step size of 6. On medium and slow mutant loci, the number of mismatch tolerance ranged from 0 to 2, with a maximum step size of 3; on rapidly and fast mutant loci, the number of mismatch tolerance ranged from 0 to 3, with a maximum step size of 6.@*CONCLUSIONS@#Combined use of SNP genealogy inference and Y-STR lineage investigation, both 0 and multiple mismatch tolerance need to be considered. Family lineage with 0-3 mismatch tolerance on all 35 Y-STR loci and 0-1 mismatch tolerance on medium and slow loci can be prioritized for screening. When the number of mismatch tolerance is eligible, family lineages with long steps should be carefully excluded. Meanwhile, adding fast mutant loci should also be handled with caution.
Subject(s)
Male , Humans , Haplotypes , Chromosomes, Human, Y/genetics , Microsatellite Repeats , Mutation , Asian People/genetics , China , Genetics, PopulationABSTRACT
OBJECTIVES@#To compare the application value of the likelihood ratio (LR) method and identity by state (IBS) method in the identification involving half sibling relationships, and to provide a reference for the setting of relevant standards for identification of half sibling relationship.@*METHODS@#(1) Based on the same genetic marker combinations, the reliability of computer simulation method was verified by comparing the distributions of cumulated identity by state score (CIBS) and combined full sibling index in actual cases with the distributions in simulated cases. (2) In different numbers of three genetic marker combinations, the simulation of full sibling, half sibling and unrelated individual pairs, each 1 million pairs, was obtained; the CIBS, as well as the corresponding types of cumulative LR parameters, were calculated. (3) The application value of LR method was compared with that of IBS method, by comparing the best system efficiency provided by LR method and IBS method when genetic markers in different amounts and of different types and accuracy were applied to distinguish the above three relational individual pairs. (4) According to the existing simulation data, the minimum number of genetic markers required to distinguish half siblings from the other two relationships using different types of genetic markers was estimated by curve fitting.@*RESULTS@#(1) After the rank sum test, under the premise that the real relationship and the genetic marker combination tested were the same, there was no significant difference between the simulation method and the results obtained in the actual case. (2) In most cases, under the same conditions, the system effectiveness obtained by LR method was greater than that by IBS method. (3) According to the existing data, the number of genetic markers required for full-half siblings and half sibling identification could be obtained by curve fitting when the system effectiveness reached 0.95 or 0.99.@*CONCLUSIONS@#When distinguishing half sibling from full sibling pairs or unrelated pairs, it is recommended to give preference to the LR method, and estimate the required number of markers according to the identification types and the population data, to ensure the identification effect.
Subject(s)
Humans , Siblings , Genetic Markers , Computer Simulation , Irritable Bowel Syndrome/genetics , Reproducibility of Results , GenotypeABSTRACT
OBJECTIVES@#To study the detection efficiency of trio full sibling with another known full sibling reference added under different number of autosomal STR typing systems.@*METHODS@#Based on 43 detection systems consisting of 13 to 55 representative autosomal STR loci, 10 000 true families (full sibling group) and 10 000 false families (unrelated individual group) were randomly simulated. The full sibling index (FSI) was calculated based on the method of family reconstruction. The cumulative sibling relationship index (CFSI) of 0.000 1 and 10 000 were used as the evaluation thresholds, and the detection efficiency parameters were calculated and compared with the identification of the duo full sibling testing.@*RESULTS@#With the increasing number of STR loci, the error rate and inability of judgement rate gradually decreased; the sensitivity, specificity, correct rate of judgment and other parameters gradually increased, and the system efficiency gradually improved. Under the same detection system, trio full sibling testing showed higher sensitivity, specificity, system efficiency and lower inability of judgement rate compared with duo full sibling testing. When the system efficiency was higher than 0.85 and inability of judgement rate was less than 0.01%, at least 20 STRs should be detected for trio full sibling testing, which was less than 29 STRs required by duo full sibling testing.@*CONCLUSIONS@#The detection efficiency of trio full sibling testing is superior to that of duo full sibling testing with the same detection system, which is an effective identification scheme for laboratories with inadequate detection systems or for materials with limited conditions.
Subject(s)
Humans , Siblings , Microsatellite Repeats/genetics , DNA Fingerprinting , Gene FrequencyABSTRACT
Tri-allelic pattern in autosomal STR is a common abnormal typing phenomenon in forensic DNA analysis, which brings difficulties and uncertainties to the evaluation of the evidence weight in actual cases. This paper reviews the types, formation mechanism, occurrence frequency, genetic pattern and quantitative evaluation of evidence of the tri-allelic pattern in autosomal STR in forensic DNA analysis. This paper mainly explains the formation mechanism and genetic patterns based on different types of tri-allelic pattern. This paper also discusses the determination of tri-allelic pattern and the quantitative method of evidence evaluation in paternity testing and individual identification. This paper aims to provide references for scientific and standardized analysis of this abnormal typing phenomenon in forensic DNA analysis.
Subject(s)
Humans , Alleles , DNA/genetics , Forensic Medicine , Gene Frequency , Microsatellite RepeatsABSTRACT
Incarvillea younghusbandii Sprague is a traditional tonic herb. The roots are used as herbal medicine for nourishing and strengthening, as well as treating postpartum milk deficiency and weakness. In this study, the chloroplast genome of I. younghusbandii was sequenced and assembled by the high-throughput sequencing technology. The sequence characteristics, sequence repeats, codon usage bias, phylogenetic relationships and estimated divergence time of I. younghusbandii were analyzed. The 159 323 bp sequence contained a large single copy (80 197 bp), a small single copy (9 030 bp) and two inverted repeat sequences (35 048 bp). It contained 120 genes, including 77 protein coding genes, 8 ribosomal RNA genes and 35 transfer RNA genes. AAA was the most frequent codon in the chloroplast coding sequence of I. younghusbandii. A total of 42 simple sequence repeats were identified in the chloroplast genome. Phylogenetic analysis revealed I. younghusbandii was mostly like its taxonomically close relative Incarvillea compacta. The divergence between I. younghusbandii and I. compacta was dated to 4.66 million years ago. This study was significant for the scientific conservation and development of resources related to I. compacta. It also provides a basic genetic resource for the subsequent species identification of the genus Incarvillea, and the population genetic diversity study of Bignoniaceae.
Subject(s)
Phylogeny , Molecular Sequence Annotation , Genome, Chloroplast , Sequence Analysis, DNA , Whole Genome SequencingABSTRACT
Background & objectives: Transforming growth factor-beta (TGF-?) signalling pathway has been reported to be involved in metastasis and at the same time has been considered compellingly an important mediator of epithelial-to-mesenchymal transition (EMT). Besides, EMT process is maintained by zinc-finger E-box-binding homeobox 1 (ZEB1) gene which is induced by TGF-? pathway. TGF-? has been shown to be associated with elevated microsatellite alterations at selected tetranucleotide repeats (EMAST) phenomenon, which is one of the prognostic biomarkers of colorectal cancer (CRC). This study was conducted to determine the link among ZEB1-induced TGF-?, EMAST status and metastasis. Methods: The expression level of ZEB1 was evaluated using quantitative reverse transcription (qRT) real-time PCR in 122 formalin fixed paraffin-embedded tissues of CRC sample with known EMAST status and TGF-?/Smad-dependent pathways. The association among ZEB1 expression, TGF-? signalling pathway, EMAST status and metastatic behaviour was examined. Results: ZEB1 gene expression level was higher in tumour tissues as compared to normal samples (P<0.045). In addition, ZEB1 positive expression level was associated significantly with metastasis (P=0.05), EMAST+ status (P=0.052) and activated TGF-? signalling pathway (P=0.002). Interpretation & conclusions: Our results validated significant association between activated TGF-? signalling pathway and EMAST+ phenotype with higher expression of ZEB1 and higher level of metastasis.
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Objective:To investigate the distribution of clustered regularly interspaced short palindromic repeats (CRISPR) in group B Streptococcus (GBS) in the genital tract of women during the third trimester and in infants with invasive infection and its relationship with multilocus sequence typing (MLST) and drug-resistance genes. Methods:This study retrospectively collected 84 GBS strains isolated from pregnant women with GBS colonization and infants with invasive GBS infection who were admitted to Children's Hospital Affiliated to Shanxi Medical University from January 2017 to January 2022. CRISPR, MLST, and drug-resistance phenotype and genes were detected and analyzed using χ 2 test or Fisher exact probability method. MEGA11 was used to construct a dendrogram. Results:There were ten sequence typing in the 84 GBS strains and ST10 was the dominant one (46.4%). GBS was sensitive to penicillin, and its resistance rates to erythromycin (75.0%) and clindamycin (73.8%) were high. Among the 17 invasive GBS strains, ST10 had 100% resistance to erythromycin, clindamycin, and levofloxacin. CRISPR1 gene was amplified in 62 strains (73.8%). CRISPR1-positive strains had a significantly higher proportion of ST10 [56.5%(35/62) vs 18.2%(4/22), χ 2=9.56, P=0.002] and ermB, gyrA, parC [54.8%(34/62) vs 22.7%(5/22), 67.7%(42/62) vs 36.4%(8/22), 71.0%(44/62) vs 36.4%(8/22); χ 2=6.73, 6.64, and 8.25, all P<0.05], and a lower proportion of ermA [6.5%(4/62) vs 31.8%(7/22), χ 2=7.09, P=0.008] than CRISPR1-negative strains. Conclusions:ST10 is the main GBS genotype among the colonized microbiota the genital tract of pregnant women and in infants with invasive GBS infection, which is also a dominant type in CRISPR1-positive strains. GBS is sensitive to penicillin and CRISPR1 gene is linked to the spread of some drug-resistance genes.
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We intend to study the structural characteristics of Lycopus europaeus Linn. chloroplast genome and compare the evolutionary relationship of species from Lamiaceae with similar medicinal effects. The total DNA of Lycopus europaeus was sequenced using the Illumina Hiseq 4000 Sequencing platform and was assembled using NOVOplasty software. And then we annotated and analyzed the genome using the CPGAVAS2 online tool. We constructed the phylogenetic tree using the Stellera chamaejasme and Potentilla chinensis as the outgroup. The whole length of Lycopus europaeus chloroplast genome was 152 085 bp. A total of 132 genes were annotated including 88 protein-coding genes, 8 rRNA genes and 36 tRNA genes. Among them, 8 protein-coding genes (ndhB, rps7, rps12, rps19, rpl2, rpl23, ycf2, ycf15), 7 tRNA coding genes (trnM-CAU, trnL CAA, trnN-GUU, trnE-UUC, trnV-GAC, trnA-UGC, trnR-ACG) and 4 rRNA coding genes (rrn16s, rrn23s, rrn4.5s, rrn5s) are located in the IR region. There are 13 protein coding genes [rps16, rps19 (×2), atpF, rpoC1, rpl2 (×2), petB, petD, rpl16, ndhB (×2), ndhA] each contains one intron, two protein-coding genes (ycf3, clpP) each contain two introns, and 8 tRNA coding genes each contain one intron. A total of 34 SSRs were detected in the chloroplast genome of Lycopus europaeus. Phylogenetic analysis revealed that two species in the Lycopus genus, four species in the Dracocephalum genus, Glechoma longituba, two species in the Mentha genus and Prunella vulgari, in total 10 species are most related. The complete genome sequence of Lycopus europaeus was obtained and analyzed, which clarified the evolutional relationship between the species of Lycopus europaeus and in the Lamiaceae family.
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As the only translational factor that plays a critical role in two translational processes (elongation and ribosome regeneration), GTPase elongation factor G (EF-G) is a potential target for antimicrobial agents. Both Mycobacterium smegmatis and Mycobacterium tuberculosis have two EF-G homologous coding genes, MsmEFG1 (MSMEG_1400) and MsmEFG2 (MSMEG_6535), fusA1 (Rv0684) and fusA2 (Rv0120c), respectively. MsmEFG1 (MSMEG_1400) and fusA1 (Rv0684) were identified as essential genes for bacterial growth by gene mutation library and bioinformatic analysis. To investigate the biological function and characteristics of EF-G in mycobacterium, two induced EF-G knockdown strains (Msm-ΔEFG1(KD) and Msm-ΔEFG2(KD)) from Mycobacterium smegmatis were constructed by clustered regularly interspaced short palindromic repeats interference (CRISPRi) technique. EF-G2 knockdown had no effect on bacterial growth, while EF-G1 knockdown significantly retarded the growth of mycobacterium, weakened the film-forming ability, changed the colony morphology, and increased the length of mycobacterium. It was speculated that EF-G might be involved in the division of bacteria. Minimal inhibitory concentration assay showed that inhibition of EF-G1 expression enhanced the sensitivity of mycobacterium to rifampicin, isoniazid, erythromycin, fucidic acid, capreomycin and other antibacterial agents, suggesting that EF-G1 might be a potential target for screening anti-tuberculosis drugs in the future.
Subject(s)
Antitubercular Agents/pharmacology , Bacterial Proteins/metabolism , Drug Resistance , Mycobacterium smegmatis/metabolism , Peptide Elongation Factor G/pharmacologyABSTRACT
Resumen El sistema CRISPR-Cas9 es una tecnología de edición genética que, además de ampliar las posibilidades en investigación científica, despierta reflexiones asociadas a la dignidad humana, el control biológico, la terapia y la mejora genética. Se revisaron las discusiones bioéticas asociadas a los desafíos y las repercusiones que suscita su aplicación. Como resultado, los cuestionamientos bioéticos tienden a problematizar la aplicación en organismos no humanos, en la investigación básica y en la línea somática y germinal humana. Para concluir, falta incrementar los niveles de seguridad y efectividad para que los beneficios superen los riesgos y, de esta forma, sea posible disminuir las preocupaciones bioéticas y aumentar la credibilidad en el uso de la técnica.
Abstract The CRISPR-Cas9 system is a genetic editing technology that, in addition to expanding the possibilities for scientific research, promotes reflections associated with human dignity, biological control, therapy, and genetic improvement. Bioethical discussions on the challenges and repercussions of the CRISPR-Cas9 system are reviewed. As a result, bioethical questions tend to problematize the application to non-human organisms, primary research, and the human somatic and germline. In brief, it is necessary to increase the levels of safety and effectiveness so that the benefits outweigh the risks, while reducing bioethical concerns and increasing the credibility of the technique.
Resumo O sistema CRISPR-Cas9 é uma tecnologia de edição de genes que, além de ampliar as possibilidades em pesquisa científica, desperta reflexões associadas com a dignidade humana, o controle biológico, a terapia e o aperfeiçoamento genético. Foram revisadas as discussões bioéticas relacionadas aos desafios e às repercussões que sua aplicação suscita. Como resultado, os questionamentos bioéticos tendem a problematizar a aplicação em organismos não humanos, na pesquisa básica e na linhagem somática e germinativa humana. Para concluir, falta aumentar os níveis de segurança e efetividade para que os benefícios sejam maiores do que os riscos, e assim, seja possível diminuir as preocupações bioéticas e aumentar a credibilidade no uso da técnica.
Subject(s)
Safety , Effectiveness , Risk Assessment , Bioethical Issues , Clustered Regularly Interspaced Short Palindromic Repeats , Gene EditingABSTRACT
BACKGROUND: Short Tandem repeats (STRs) existed as popular elements in both eukaryotic and prokaryotic genomes. RESULTS: In this study, we analyzed the characteristics, distributions, and motif features of STRs within whole-genomes of 140 plant species. The results showed that STR density was negatively correlated with the genome size. Hexanucleotide repeat was the most abundant type of STRs. The distribution of algae shows a preference different from that of other plants. By analyzing GC contents of STRs and genome, it was concluded that STR motif was influenced by GC contents. Analysis of the long STRs in genome (length 1000 bp) found that dicots have the more long STRs. For STR types, di- and tri-nucleotide accounted for the highest proportion. Analyzing and designing long STRs in CDS (length 500 bp) was to verify the role of long STRs in Gossypium hirsutum TM-1 and Solanum tuberosum. By comparing the long STRs found in Fragaria x ananassa with other species, some evolutionary characteristics of the long STRs were obtained. CONCLUSIONS: We got the characteristics, distribution, and motif features of STRs in the whole genome of 140 plants and obtained some evolutionary characteristics of long STRs. The study provides useful insights into STR preference, characteristics, and distribution in plants.
Subject(s)
Plants/genetics , Genetic Variation , Microsatellite Repeats , Base Sequence , Sequence AnalysisABSTRACT
Since it was first recognized in bacteria and archaea as a mechanism for innate viral immunity in the early 2010s, clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein (Cas) has rapidly been developed into a robust, multifunctional genome editing tool with many uses. Following the discovery of the initial CRISPR/Cas-based system, the technology has been advanced to facilitate a multitude of different functions. These include development as a base editor, prime editor, epigenetic editor, and CRISPR interference (CRISPRi) and CRISPR activator (CRISPRa) gene regulators. It can also be used for chromatin and RNA targeting and imaging. Its applications have proved revolutionary across numerous biological fields, especially in biomedical and agricultural improvement. As a diagnostic tool, CRISPR has been developed to aid the detection and screening of both human and plant diseases, and has even been applied during the current coronavirus disease 2019 (COVID-19) pandemic. CRISPR/Cas is also being trialed as a new form of gene therapy for treating various human diseases, including cancers, and has aided drug development. In terms of agricultural breeding, precise targeting of biological pathways via CRISPR/Cas has been key to regulating molecular biosynthesis and allowing modification of proteins, starch, oil, and other functional components for crop improvement. Adding to this, CRISPR/Cas has been shown capable of significantly enhancing both plant tolerance to environmental stresses and overall crop yield via the targeting of various agronomically important gene regulators. Looking to the future, increasing the efficiency and precision of CRISPR/Cas delivery systems and limiting off-target activity are two major challenges for wider application of the technology. This review provides an in-depth overview of current CRISPR development, including the advantages and disadvantages of the technology, recent applications, and future considerations.
Subject(s)
Humans , CRISPR-Cas Systems , Clustered Regularly Interspaced Short Palindromic Repeats , Crops, Agricultural/genetics , Gene Editing/methods , Genetic Therapy , Nobel Prize , Plant BreedingABSTRACT
Cell membranes have recently emerged as a new source of materials for molecular delivery systems. Cell membranes have been extruded or sonicated to make nanoscale vesicles. Unlike synthetic lipid or polymeric nanoparticles, cell membrane-derived vesicles have a unique multicomponent feature, comprising lipids, proteins, and carbohydrates. Because cell membrane-derived vesicles contain the intrinsic functionalities and signaling networks of their parent cells, they can overcome various obstacles encountered
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ObjectiveTo obtain HSC-T6 cells with stable expression of Cas9 protein and HSC-T6-COX-2-/- cells with COX-2 gene defect by transfecting HSC-T6 cells with CRISPR/Cas9 lentiviral vector, and to provide a good method for further functional research and new strategies for the clinical treatment of liver fibrosis. MethodsThe COX-2 gene-specific sgRNAs (COX-2-sgRNA-1, COX-2-sgRNA-2, COX-2-sgRNA-3) were designed, synthesized, and connected to the GV371 vector, and the recombinant plasmid and the packaging plasmid were transfected into 293T cells to form lentivirus particles; the fluorescence method was used to measure virus titer. The most appropriate amount of the virus was calculated based on MOI. Lenti-Cas9-puro was transfected into HSC-T6 cells, and HSC-T6-Cas9 cells were screened out by puromycin; Lenti-COX-2-sgRNA-EGFP was transfected into HSC-T6-Cas9 cells to obtain HSC-T6-COX-2-/- cells. Cruiser enzyme digestion and Western blot were used to verify gene knockout at the gene and protein levels. An analysis of variance was used for comparison of continuous data between multiple groups, and the least significant difference t-test was used for further comparison between two groups. ResultsSequencing verified that the COX-2-sgRNA expression vector was constructed successfully. Recombinant expression plasmids and packaging plasmids were transfected into 293T cells to form lentivirus particles, and the fluorescence method showed a virus titer of >1×108. HSC-T6 cells with stable expression of Cas9 protein and HSC-T6-COX-2-/- cells with COX-2 gene defect were successfully constructed. The HSC-T6-Cas9 group had significantly higher relative mRNA expression of LV-Cas9-Puro than the CON group (541.93±105.76 vs 1.00±0.02, t=12.995, P<0.01). Cruiser enzyme digestion and Western blot showed that the CRISPR/Cas9 lentivirus expression vectors played a role in the target, among which COX-2-sgRNA-2 knockout had the most significant effect, and this group had a significant reduction in the protein expression level of COX-2 compared with the CON group and the NC group (both P<0.05), suggesting that COX-2-sgRNA was active. ConclusionA CRISPR/Cas9 lentivirus vector is successfully constructed for COX-2 target gene, and HSC-T6-COX-2-/- cells with stable COX-2 gene knockout are obtained.