keyword
https://read.qxmd.com/read/39276086/cell-penetrating-peptides-and-crispr-cas9-a-combined-strategy-for-human-genetic-disease-therapy
#1
JOURNAL ARTICLE
Carla Lira, Eduardo Mannarino Correia, Martin Bonamino, Zilton Farias Meira Vasconcelos
The advent of Clustered regularly interspaced short palindromic repeats (CRISPR)-CRISPR-associated nuclease 9 (Cas9) technology has revolutionized the field of genetic engineering, offering unprecedented potential for the targeted manipulation of DNA sequences. Advances in the mechanism of action of the CRISPR-Cas9 system allowed potential applicability for the treatment of genetic diseases. CRISPR-Cas9's mechanism of action involves the use of an RNA guide molecule to target specific DNA sequences and the Cas9 enzyme to induce precise DNA cleavage...
September 14, 2024: Human Gene Therapy
https://read.qxmd.com/read/39276061/next-generation-ama1-based-plasmids-for-enhanced-heterologous-expression-in-filamentous-fungi
#2
JOURNAL ARTICLE
Indra Roux, Clara Woodcraft, Nicolau Sbaraini, Amy Pepper, Emily Wong, Joe Bracegirdle, Yit-Heng Chooi
Episomal AMA1-based plasmids are increasingly used for expressing biosynthetic pathways and CRISPR/Cas systems in filamentous fungi cell factories due to their high transformation efficiency and multicopy nature. However, the gene expression from AMA1 plasmids has been observed to be highly heterogeneous in growing mycelia. To overcome this limitation, here we developed next-generation AMA1-based plasmids that ensure homogeneous and strong expression. We achieved this by evaluating various degradation tags fused to the auxotrophic marker gene on the AMA1 plasmid, which introduces a more stringent selection pressure throughout multicellular fungal growth...
September 2024: Microbial Biotechnology
https://read.qxmd.com/read/39275984/learning-to-quantify-uncertainty-in-off-target-activity-for-crispr-guide-rnas
#3
JOURNAL ARTICLE
Furkan Özden, Peter Minary
CRISPR-based genome editing technologies have revolutionised the field of molecular biology, offering unprecedented opportunities for precise genetic manipulation. However, off-target effects remain a significant challenge, potentially leading to unintended consequences and limiting the applicability of CRISPR-based genome editing technologies in clinical settings. Current literature predominantly focuses on point predictions for off-target activity, which may not fully capture the range of possible outcomes and associated risks...
September 14, 2024: Nucleic Acids Research
https://read.qxmd.com/read/39275871/crispr-gal4bd-cas-donor-adapting-systems-based-on-miniaturized-cas-proteins-for-improved-gene-editing
#4
JOURNAL ARTICLE
Sen Yang, Bao-Xia Ma, Hong-Run Qian, Jie-Yu Cui, Xiao-Jun Zhang, Li-da Li, Ze-Hui Wei, Zhi-Ying Zhang, Jian-Gang Wang, Kun Xu
Targeted precise point editing and knock-in can be achieved by homology-directed repair(HDR) based gene editing strategies in mammalian cells. However, the inefficiency of HDR strategies seriously restricts their application in precision medicine and molecular design breeding. In view of the problem that exogenous donor DNA cannot be efficiently recruited autonomously at double-stranded breaks(DSBs) when using HDR strategies for gene editing, the concept of donor adapting system(DAS) was proposed and the CRISPR/Cas9-Gal4BD DAS was developed previously...
September 2024: Yi Chuan, Hereditas
https://read.qxmd.com/read/39275869/progress-on-crispr-cas-gene-editing-technology-in-sheep-production
#5
REVIEW
Dong-Xia Pan, Hui Wang, Ben-Hai Xiong, Xiang-Fang Tang
Gene editing is a kind of genetic engineering technology that can modify the genome. In recent years, with the rapid development of molecular biotechnology, the clustered regularly interspaced short palindromic repeats associated protein system has been widely used as a powerful gene editing tool due to its high efficiency, accuracy and flexibility. The CRISPR-Cas system makes a significant contribution to different aspects of livestock production by introducing site-specific modifications such as insertions, deletions or single base replacements at specific genomic sites...
September 2024: Yi Chuan, Hereditas
https://read.qxmd.com/read/39275801/non-coding-cause-of-congenital-heart-defects-abnormal-rna-splicing-with-multiple-isoforms-as-a-mechanism-for-heterotaxy
#6
JOURNAL ARTICLE
John R Wells, Maria B Padua, Allison M Haaning, Amanda M Smith, Shaine A Morris, Muhammad Tariq, Stephanie M Ware
Heterotaxy is a disorder characterized by severe congenital heart defects (CHDs) and abnormal left-right patterning in other thoracic or abdominal organs. Clinical and research-based genetic testing has previously focused on evaluation of coding variants to identify causes of CHDs, leaving non-coding causes of CHDs largely unknown. Variants in the transcription factor Zinc finger of the cerebellum 3 (ZIC3) cause X-linked heterotaxy. We identified an X-linked heterotaxy pedigree without a coding variant in ZIC3...
September 12, 2024: HGG advances
https://read.qxmd.com/read/39273928/genome-wide-identification-of-gh17s-family-genes-and-biological-function-analysis-of-sla6-in-tomato
#7
JOURNAL ARTICLE
Da Chen, Zaohai Zeng, Canye Yu, Huimin Hu, Yuxiang Lin, Caiyu Wu, Yinghua Yang, Qiuxiang Zhong, Xinyue Zhang, Caihong Huang, Yiwen Yao, Zhengkun Qiu, Xiaomin Wang, Rui Xia, Chongjian Ma, Riyuan Chen, Yanwei Hao, Hongling Guan
Glycoside hydrolases (GHs), enzymes that break down glycosidic bonds in carbohydrates and between carbohydrates and non-carbohydrates, are prevalent in plants, animals, microorganisms, and other organisms. The tomato is a significant crop that contains the GH17 gene family. However, its role in tomatoes has yet to be fully investigated. In this study, we identified 43 GH17 genes from the tomato genome, distributed unevenly across 12 chromosomes. We further analyzed their gene structure, phylogenetic relationships, promoter elements, and expression patterns...
September 1, 2024: Plants (Basel, Switzerland)
https://read.qxmd.com/read/39273559/-slc4a7-regulates-retina-development-in-zebrafish
#8
JOURNAL ARTICLE
Youyuan Zhuang, Dandan Li, Cheng Tang, Xinyi Zhao, Ruting Wang, Di Tao, Xiufeng Huang, Xinting Liu
Inherited retinal degenerations (IRDs) are a group of genetic disorders characterized by the progressive degeneration of retinal cells, leading to irreversible vision loss. SLC4A7 has emerged as a candidate gene associated with IRDs, yet its mechanisms remain largely unknown. This study aims to investigate the role of slc4a7 in retinal development and its associated molecular pathogenesis in zebrafish. Morpholino oligonucleotide knockdown, CRISPR/Cas9 genome editing, quantitative RT-PCR, eye morphometric measurements, immunofluorescent staining, TUNEL assays, visual motor responses, optokinetic responses, rescue experiments, and bulk RNA sequencing were used to assess the impact of slc4a7 deficiency on retinal development...
September 5, 2024: International Journal of Molecular Sciences
https://read.qxmd.com/read/39273506/r2r3-myb-transcription-factor-ghmyb201-promotes-cotton-fiber-elongation-via-cell-wall-loosening-and-very-long-chain-fatty-acid-synthesis
#9
JOURNAL ARTICLE
Qingwei Suo, Nianjuan Fang, Jianyan Zeng, Fulin Yan, Xi Zhu, Yi Wang, Wanting Yu, Junmin Chen, Aimin Liang, Yaohua Li, Jie Kong, Yuehua Xiao
Cotton fiber is the leading natural textile material, and fiber elongation plays an essential role in the formation of cotton yield and quality. Although a number of components in the molecular network controlling cotton fiber elongation have been reported, a lot of players still need to be functionally dissected to understand the regulatory mechanism of fiber elongation comprehensively. In the present study, an R2R3-MYB transcription factor gene, GhMYB201 , was characterized and functionally verified via CRISPR/Cas9-mediated gene editing...
September 3, 2024: International Journal of Molecular Sciences
https://read.qxmd.com/read/39273433/precise-insertion-of-attb-sequences-in-goat-genome-using-enhanced-prime-editor
#10
JOURNAL ARTICLE
Aicong Li, Zhenliang Zhu, Jing Yang, Yayi Liu, Yong Zhang, Jun Liu
Prime editor, an editing tool based on the CRISPR/Cas9 system, allows for all 12 types of nucleotide exchanges and arbitrary indels in genomic sequences without the need for inducing DNA double-strand breaks. Despite its flexibility and precision, prime editing efficiency is still low and hindered by various factors such as target sites, editing types, and the length of the primer binding site. In this study, we developed a prime editing system by incorporating an RNA motif at the 3' terminal of the pegRNA and integrating all twin prime editor factors into a single plasmid...
August 31, 2024: International Journal of Molecular Sciences
https://read.qxmd.com/read/39273418/genetic-and-environmental-factors-co-contributing-to-behavioral-abnormalities-in-adnp-adnp2-mutant-zebrafish
#11
JOURNAL ARTICLE
Yongxin Wang, Xiaoyun Sun, Bo Xiong, Ming Duan, Yuhua Sun
Human mutations of ADNP and ADNP2 are known to be associated with neural developmental disorders (NDDs), including autism spectrum disorders (ASDs) and schizophrenia (SZ). However, the underlying mechanisms remain elusive. In this study, using CRISPR/Cas9 gene editing technology, we generated adnp and adnp2 mutant zebrafish models, which exhibited developmental delays, brain deficits, and core behavioral features of NDDs. RNA sequencing analysis of adnpa- / - ; adnpb-/ - and adnp2a-/ - ; adnp2b-/ - larval brains revealed altered gene expression profiles affecting synaptic transmission, autophagy, apoptosis, microtubule dynamics, hormone signaling, and circadian rhythm regulation...
August 30, 2024: International Journal of Molecular Sciences
https://read.qxmd.com/read/39273349/physiological-and-molecular-mechanisms-of-rice-tolerance-to-salt-and-drought-stress-advances-and-future-directions
#12
REVIEW
Qingyang Li, Peiwen Zhu, Xinqiao Yu, Junying Xu, Guolan Liu
Rice, a globally important food crop, faces significant challenges due to salt and drought stress. These abiotic stresses severely impact rice growth and yield, manifesting as reduced plant height, decreased tillering, reduced biomass, and poor leaf development. Recent advances in molecular biology and genomics have uncovered key physiological and molecular mechanisms that rice employs to cope with these stresses, including osmotic regulation, ion balance, antioxidant responses, signal transduction, and gene expression regulation...
August 29, 2024: International Journal of Molecular Sciences
https://read.qxmd.com/read/39273316/the-crosstalk-analysis-between-mpscs-and-panc1-cells-identifies-ccn1-as-a-positive-regulator-of-gemcitabine-sensitivity-in-pancreatic-cancer-cells
#13
JOURNAL ARTICLE
Beate Gündel, Xinyuan Liu, Anna Pfützenreuter, Veronika Engelsberger, Ralf Weiskirchen, J-Matthias Löhr, Rainer Heuchel
Pancreatic ductal adenocarcinoma (PDAC) is a deadly disease that is almost entirely resistant to conventional chemotherapy and radiation therapy. A significant factor in this resistance appears to be the dense desmoplastic stroma, which contains various cancer-associated fibroblast (CAF) populations. However, our understanding of the communication between tumor cells and CAFs that contributes to this aggressive malignancy is still developing. Recently, we used an advanced three-dimensional heterospecies, heterospheroid co-culture model to investigate the signaling between human pancreatic tumor Panc1 cells and mouse pancreatic stellate cells (mPSCs) through global expression profiling...
August 29, 2024: International Journal of Molecular Sciences
https://read.qxmd.com/read/39273285/slhb8-is-a-novel-factor-in-enhancing-cold-resistance-in-tomato-anthers-by-modulating-tapetal-cell-death
#14
JOURNAL ARTICLE
Hongling Guan, Canye Yu, Zaohai Zeng, Huimin Hu, Yuxiang Lin, Caiyu Wu, Yiwen Yao, Rui Xia, Zhengguo Li, Chongjian Ma, Riyuan Chen, Baowen Huang, Yanwei Hao
Tomato plants favor warmth, making them particularly susceptible to cold conditions, especially their reproductive development. Therefore, understanding how pollen reacts to cold stress is vital for selecting and improving cold-resistant tomato varieties. The programmed cell death (PCD) in the tapetum is particularly susceptible to cold temperatures which could hinder the degradation of the tapetal layer in the anthers, thus affecting pollen development. However, it is not clear yet how genes integral to tapetal degradation respond to cold stress...
August 28, 2024: International Journal of Molecular Sciences
https://read.qxmd.com/read/39273247/crispr-cas9-technology-for-enhancing-desirable-traits-of-fish-species-in-aquaculture
#15
REVIEW
Minli Zhu, Sahr Lamin Sumana, Mukhtar Muhammad Abdullateef, Opeoluwa Christiana Falayi, Yan Shui, Chengfeng Zhang, Jian Zhu, Shengyan Su
Aquaculture, the world's fastest-growing food production sector, is critical for addressing food security concerns because of its potential to deliver high-quality, nutrient-rich supplies by 2050. This review assesses the effectiveness of CRISPR/Cas9 genome editing technology in enhancing desirable traits in fish species, including growth rates, muscle quality, disease resistance, pigmentation, and more. It also focuses on the potential effectiveness of the technology in allowing precise and targeted modifications of fish DNA to improve desirable characteristics...
August 27, 2024: International Journal of Molecular Sciences
https://read.qxmd.com/read/39273181/toward-dna-based-recording-of-biological-processes
#16
REVIEW
Hyeri Jang, Sung Sun Yim
Exploiting the inherent compatibility of DNA-based data storage with living cells, various cellular recording approaches have been developed for recording and retrieving biologically relevant signals in otherwise inaccessible locations, such as inside the body. This review provides an overview of the current state of engineered cellular memory systems, highlighting their design principles, advantages, and limitations. We examine various technologies, including CRISPR-Cas systems, recombinases, retrons, and DNA methylation, that enable these recording systems...
August 26, 2024: International Journal of Molecular Sciences
https://read.qxmd.com/read/39273092/electroporation-delivery-of-cas9-sgrna-ribonucleoprotein-mediated-genome-editing-in-sheep-ivf-zygotes
#17
JOURNAL ARTICLE
Wenhui Pi, Guangyu Feng, Minghui Liu, Cunxi Nie, Cheng Chen, Jingjing Wang, Limin Wang, Pengcheng Wan, Changbin Liu, Yi Liu, Ping Zhou
The utilization of electroporation for delivering CRISPR/Cas9 system components has enabled efficient gene editing in mammalian zygotes, facilitating the development of genome-edited animals. In this study, our research focused on targeting the ACTG1 and MSTN genes in sheep, revealing a threshold phenomenon in electroporation with a voltage tolerance in sheep in vitro fertilization (IVF) zygotes. Various poring voltages near 40 V and pulse durations were examined for electroporating sheep zygotes. The study concluded that stronger electric fields required shorter pulse durations to achieve the optimal conditions for high gene mutation rates and reasonable blastocyst development...
August 23, 2024: International Journal of Molecular Sciences
https://read.qxmd.com/read/39273078/reporter-mice-for-gene-editing-a-key-tool-for-advancing-gene-therapy-of-rare-diseases
#18
REVIEW
Siang Li, Cord Brakebusch
Most rare diseases are caused by mutations and can have devastating consequences. Precise gene editing by CRISPR/Cas is an exciting possibility for helping these patients, if no irreversible developmental defects have occurred. To optimize gene editing therapy, reporter mice for gene editing have been generated which, by expression of reporter genes, indicate the efficiency of precise and imprecise gene editing. These mice are important tools for testing and comparing novel gene editing methodologies. This review provides a comprehensive overview of reporter mice for gene editing which all have been used for monitoring CRISPR/Cas-mediated gene editing involving DNA double-strand breaks (DSBs)...
September 9, 2024: Cells
https://read.qxmd.com/read/39273066/the-proteasome-and-cul3-dependent-protein-ubiquitination-is-required-for-gli-protein-mediated-activation-of-gene-expression-in-the-hedgehog-pathway
#19
JOURNAL ARTICLE
Tomasz Uśpieński, Paweł Niewiadomski
Many cellular processes are regulated by proteasome-mediated protein degradation, including regulation of signaling pathways and gene expression. Among the pathways regulated by the ubiquitin-proteasome system is the Hedgehog pathway and its downstream effectors, the Gli transcription factors. Here we provide evidence that proteasomal activity is necessary for maintaining the activation of the Hedgehog pathway, and this crucial event takes place at the level of Gli proteins. We undertook extensive work to demonstrate the specificity of the observed phenomenon by ruling out the involvement of primary cilium, impaired nuclear import, failed dissociation from Sufu, microtubule stabilization, and stabilization of Gli repressor forms...
September 6, 2024: Cells
https://read.qxmd.com/read/39273051/inhibition-of-kdm2-7-promotes-notochordal-differentiation-of-hipscs
#20
JOURNAL ARTICLE
Martha E Diaz-Hernandez, Kimihide Murakami, Shizumasa Murata, Nazir M Khan, Sreekala P V Shenoy, Katrin Henke, Hiroshi Yamada, Hicham Drissi
Intervertebral disc disease (IDD) is a debilitating spine condition that can be caused by intervertebral disc (IVD) damage which progresses towards IVD degeneration and dysfunction. Recently, human pluripotent stem cells (hPSCs) were recognized as a valuable resource for cell-based regenerative medicine in skeletal diseases. Therefore, adult somatic cells reprogrammed into human induced pluripotent stem cells (hiPSCs) represent an attractive cell source for the derivation of notochordal-like cells (NCs) as a first step towards the development of a regenerative therapy for IDD...
September 4, 2024: Cells
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