Pentatricopeptide repeat(PPR)proteins are a large group of eukaryote-specific RNA-binding proteins that play pivotal roles in plant organelle gene expression.Here,we report the function of PPR21 in mitochondrial intro...Pentatricopeptide repeat(PPR)proteins are a large group of eukaryote-specific RNA-binding proteins that play pivotal roles in plant organelle gene expression.Here,we report the function of PPR21 in mitochondrial intron splicing and its role in maize kernel development.PPR21 is a typical P-type PPR protein targeted to mitochondria.The ppr21 mutants are arrested in embryogenesis and endosperm development,leading to embryo lethality.Null mutations of PPR21 reduce the splicing efficiency of nad2 intron 1,2,and 4 and impair the assembly and activity of mitochondrial complex I.Previous studies show that the P-type PPR protein EMP12 is required for the splicing of identical introns.However,our protein interaction analyses reveal that PPR21 does not interact with EMP12.Instead,both PPR21 and EMP12 interact with the small MutS-related(SMR)domain-containing PPR protein 1(PPR-SMR1)and the short P-type PPR protein 2(SPR2).PPR-SMR1 interacts with SPR2,and both proteins are required for the splicing of many introns in mitochondria,including nad2 intron 1,2,and 4.These results suggest that a PPR21-(PPR-SMR1/SPR2)-EMP12 complex is involved in the splicing of nad2 introns in maize mitochondria.展开更多
In this study,three weight vectors L1,L2 and L3 were set.After calculating the probability of three bases in the exons or introns in the genomic DNA of Arabidopsis thaliana,64-dimensional vector P was obtained.Dot pro...In this study,three weight vectors L1,L2 and L3 were set.After calculating the probability of three bases in the exons or introns in the genomic DNA of Arabidopsis thaliana,64-dimensional vector P was obtained.Dot products of P vector and three weight vectors were the feature coordinates for the exons and introns in 3-dimensional phase space.The expression for the interface between the exons and the introns in the genomic DNA of Arabidopsis thaliana in 3-dimensional phase space was established,which could be used to distinguish the exons and the introns in the genomic DNA of Arabidopsis thaliana with an accuracy higher than85%in 3-dimensional phase space.展开更多
Linear mRNA vaccines are constrained by exonuclease susceptibility and instability,leading to compromised antigen expression.Circular RNA(circRNA) lacking canonical 5' and 3' untranslated regions demonstrates ...Linear mRNA vaccines are constrained by exonuclease susceptibility and instability,leading to compromised antigen expression.Circular RNA(circRNA) lacking canonical 5' and 3' untranslated regions demonstrates intrinsic exonuclease resistance.Current circularization strategies face three principal limitations:chemical methods produce non-native 2',5'-phosphodiester bonds;ribozyme-mediated approaches are restricted to RNA fragments shorter than 500 nucleotides;the Anabaena Group I intron system retains immunogenic exon sequences.In contrast,the self-splicing Group I intron ribozyme from Tetrahymena enables precisely controlled circularization through autonomous structural rearrangement,yielding exonfree constructs.Through optimized purification protocols,historical scalability challenges are systematically addressed.This Perspective establishes the mechanistic rationale and therapeutic superiority of this engineered RNA circularization platform.展开更多
The clustered regularly interspaced short palindromic repeat (CRISPR) system has emerged as the revolu- tionary platform for DNA targeting. This system uses a site-specific RNA guide to direct a CRISPR effector (e....The clustered regularly interspaced short palindromic repeat (CRISPR) system has emerged as the revolu- tionary platform for DNA targeting. This system uses a site-specific RNA guide to direct a CRISPR effector (e.g., Cas9 and Cpfl) to a DNA target. Here, we elaborate a general strategy to simultaneously express multiple guide RNAs (gRNA) and CRISPR RNAs (crRNA) from introns of Cas9 and Cpfl. This method utilizes the endogenous tRNA processing system or crRNA processing activity of Cpfl to cleave the spliced intron that contains tRNA-gRNA polycistron or crRNA-crRNA array. We demonstrated that the tRNA-gRNA intron is able to fuse with Cas9 as one gene. Such a hybrid gene could be expressed using one polymerase II promoter, and exhibited high efficiency and robustness in simultaneously targeting multiple sites. We also implemented this strategy in Cpfl-mediated genome editing using intronic tRNA-crRNA and crRNA-crRNA arrays. Interestingly, hybrid genes containing Cpfl and intronic crRNA array exhibited remarkably increased efficiency compared with the conventional Cpfl vectors. Taken together, this study presents a method to express CRISPR reagents from one hybrid gene to increase genome-editing efficiency and capacity. Owing to its simplicity and versatility, this method could be broadly used to develop sophisticated CRISPR tools in eukaryotes.展开更多
Alternative splicing (AS) is a vital genetic mechanism that enhances the diversity of eukaryotic transcriptomes. Here, we generated 8.3 Gb high-quality RNA-sequencing data from cotton (Gossypium raimondii) and per...Alternative splicing (AS) is a vital genetic mechanism that enhances the diversity of eukaryotic transcriptomes. Here, we generated 8.3 Gb high-quality RNA-sequencing data from cotton (Gossypium raimondii) and performed a systematic, comparative analysis of AS events. We mapped 85% of the RNA-sequencing data onto the reference genome and identified 154 368 splice junctions with 16 437 as events in 10197 genes. I ntron retention constituted the majority (40%) of all AS events in G. raimondii. Comparison across 11 eukaryote species showed that intron retention is the most common AS type in higher plants. Although transposable elements (TEs) were found in only 2.9% of all G. raimondii introns, they are present in 43% of the retained introns, suggesting that TE-insertion may be an important mechanism for intron retention during AS. The majority of the TE insertions are concentrated 0-40 nt upstream of the 3'-splice site, substantially altering the distribution of branch points from preferred positions and reducing the efficiency of intron splicing by decreasing RNA secondary structure flexibility. Our data suggest that TE-insertion-induced changes in branch point-site distribution are important for intron retention-type AS. Our findings may help explain the vast differences in intron-retention frequencies between vertebrates and higher plants.展开更多
Introns and exons of 7 genes ( epsilon globin, gamma-1 globin, gamma-2 globin, delta globin, beta globin, Immunoglobulin and prepro-insulin) in primates have been separated out and used to infer phylogeny respectively...Introns and exons of 7 genes ( epsilon globin, gamma-1 globin, gamma-2 globin, delta globin, beta globin, Immunoglobulin and prepro-insulin) in primates have been separated out and used to infer phylogeny respectively. For each gene, results based on these two parts have been compared and showed that: ( i ) the topology of introns is almost展开更多
The intron is an important component of eu-karyotic gene. Extensive studies have been conducted to get a better understanding of its structure and function. This paper presents a brief review of the structure and func...The intron is an important component of eu-karyotic gene. Extensive studies have been conducted to get a better understanding of its structure and function. This paper presents a brief review of the structure and function of introns in higher plant genes. It is shown that higher plant introns possess structural properties shared by all eukaryotic introns, however, they also exhibit a striking degree of diversity. The process of intron splicing in higher plant genes involves interaction between multiple cis -acting elements and trans-acting factors, such as 5’ splicing site, 3’ splicing site and many protein factors. The process of intron splicing is an important level at which gene expression is regulated. Especially alternative splicing of intron can regulate time and space of gene expression. In addition, some introns in higher plant genes also regulate gene expression by affecting the pattern of gene expression, enhancing the level of gene expression and driving the gene expression.展开更多
RNA helicases participate in nearly all aspects of RNA metabolism by rearranging RNAs or RNA–protein complexes in an adenosine triphosphatedependent manner.Due to the large RNA helicase families in plants,the precise...RNA helicases participate in nearly all aspects of RNA metabolism by rearranging RNAs or RNA–protein complexes in an adenosine triphosphatedependent manner.Due to the large RNA helicase families in plants,the precise roles of many RNA helicases in plant physiology and development remain to be clarified.Here,we show that mutations in maize(Zea mays)DEAD-box RNA helicase48(Zm RH48)impair the splicing of mitochondrial introns,mitochondrial complex biosynthesis,and seed development.Loss of Zm RH48 function severely arrested embryogenesis and endosperm development,leading to defective kernel formation.Zm RH48 is targeted to mitochondria,where its deficiency dramatically reduced the splicing efficiency of five cis-introns(nad5 intron 1;nad7 introns 1,2,and 3;and ccm Fc intron 1)and one trans-intron(nad2 intron 2),leading to lower levels of mitochondrial complexes I andⅢ.Zm RH48 interacts with two unique pentatricopeptide repeat(PPR)proteins,PPR-SMR1 and SPR2,which are required for the splicing of over half of all mitochondrial introns.PPR-SMR1 interacts with SPR2,and both proteins interact with P-type PPR proteins and Zm-m CSF1 to facilitate intron splicing.These results suggest that Zm RH48 is likely a component of a splicing complex and is critical for mitochondrial complex biosynthesis and seed development.展开更多
Emerging evidence suggests that intron-detaining transcripts(IDTs)are a nucleus-detained and polyadenylated mRNA pool for cell to quickly and effectively respond to environmental stimuli and stress.However,the underly...Emerging evidence suggests that intron-detaining transcripts(IDTs)are a nucleus-detained and polyadenylated mRNA pool for cell to quickly and effectively respond to environmental stimuli and stress.However,the underlying mechanisms of detained intron(DI)splicing are still largely unknown.Here,we suggest that post-transcriptional DI splicing is paused at the Bact state,an active spliceosome but not catalytically primed,which depends on Smad Nuclear Interacting Protein 1(SNIP1)and RNPS1(a serine-rich RNA binding protein)interaction.RNPS1 and Bact components preferentially dock at DIs and the RNPS1 docking is sufficient to trigger spliceosome pausing.Haploinsufficiency of Snip1 attenuates neurodegeneration and globally rescues IDT accumulation caused by a previously reported mutant U2 snRNA,a basal spliceosomal component.Snip1 conditional knockout in the cerebellum decreases DI splicing efficiency and causes neurodegeneration.Therefore,we suggest that SNIP1 and RNPS1 form a molecular brake to promote spliceosome pausing,and that its misregulation contributes to neurodegeneration.展开更多
Chloroplast biogenesis requires the coordinated expression of chloroplast and nuclear genes.Here, we show that EMB1270, a plastid-localized pentatricopeptide repeat(PPR) protein, is required for chloroplast biogenesis...Chloroplast biogenesis requires the coordinated expression of chloroplast and nuclear genes.Here, we show that EMB1270, a plastid-localized pentatricopeptide repeat(PPR) protein, is required for chloroplast biogenesis in Arabidopsis thaliana.Knockout of EMB1270 led to embryo arrest,whereas a mild knockdown mutant of EMB1270 displayed a virescent phenotype. Almost no photosynthetic proteins accumulated in the albino emb1270 knockout mutant. By contrast, in the emb1270 knockdown mutant, the levels of ClpP1 and photosystem I(PSI) subunits were significantly reduced, whereas the levels of photosystem II(PSII) subunits were normal. Furthermore, the splicing efficiencies of the clpP1.2,ycf3.1, ndhA, and ndhB plastid introns were dramatically reduced in both emb1270 mutants. RNA immunoprecipitation revealed that EMB1270 associated with these introns in vivo. In an RNA electrophoretic mobility shift assay(REMSA), a truncated EMB1270 protein containing the 11 Nterminal PPR motifs bound to the predicted sequences of the clpP1.2, ycf3.1, and ndhA introns.In addition, EMB1270 specifically interacted with CRM Family Member 2(CFM2). Given that CFM2 is known to be required for splicing the same plastid RNAs, our results suggest that EMB1270 associates with CFM2 to facilitate the splicing of specific group II introns in Arabidopsis.展开更多
Peptidyl-prolyl isomerase-like 1(PPIL1)is associated with the human spliceosome complex.However,its function in pre-mRNA splicing remains unclear.In this study,we show that Arabidopsis thaliana CYCLOPHILIN 18-2(AtCYP1...Peptidyl-prolyl isomerase-like 1(PPIL1)is associated with the human spliceosome complex.However,its function in pre-mRNA splicing remains unclear.In this study,we show that Arabidopsis thaliana CYCLOPHILIN 18-2(AtCYP18-2),a PPIL1 homolog,plays an essential role in heat tolerance by regulating pre-mRNA splicing.Under heat stress conditions,AtCYP18-2 expression was upregulated in mature plants and GFP-tagged AtCYP18-2 redistributed to nuclear and cytoplasmic puncta.We determined that AtCYP18-2 interacts with several spliceosome complex B^(ACT)components in nuclear puncta and is primarily associated with the small nuclear RNAs U5 and U6 in response to heat stress.The AtCYP18-2 loss-of-function allele cyp18-2 engineered by CRISPR/Cas9-mediated gene editing exhibited a hypersensitive phenotype to heat stress relative to the wild type.Moreover,global transcriptome profiling showed that the cyp18-2 mutation affects alternative splicing of heat stress–responsive genes under heat stress conditions,particularly intron retention(IR).The abundance of most intron-containing transcripts of a subset of genes essential for thermotolerance decreased in cyp18-2 compared to the wild type.Furthermore,the intron-containing transcripts of two heat stress-related genes,HEAT SHOCK PROTEIN 101(HSP101)and HEAT SHOCK FACTOR A2(HSFA2),produced functional proteins.HSP101-IR-GFP localization was responsive to heat stress,and HSFA2-Ⅲ-IR interacted with HSF1 and HSP90.1 in plant cells.Our findings reveal that CYP18-2 functions as a splicing factor within the B~(ACT)spliceosome complex and is crucial for ensuring the production of adequate levels of alternatively spliced transcripts to enhance thermotolerance.展开更多
Intronic polyadenylation(IPA)is an RNA 3'end processing event which has been reported to play important roles in cancer development.However,the comprehensive landscape of IPA events across various cancer types is ...Intronic polyadenylation(IPA)is an RNA 3'end processing event which has been reported to play important roles in cancer development.However,the comprehensive landscape of IPA events across various cancer types is lacking.Here,we apply IPAFinder to identify and quantify IPA events in 10,383 samples covering all 33 cancer types from The Cancer Genome Atlas(TCGA)project.We identify a total of 21,835 IPA events,almost half of which are ubiquitously expressed.We identify 2761 unique dynamically changed IPA events across cancer types.Furthermore,we observe 8855 non-redundant clinically relevant IPA events,which could potentially be used as prognostic indicators.Our analysis also reveals that dynamic IPA usage within cancer signaling pathways may affect drug response.Finally,we develop a user-friendly data portal,IPACancer Atlas(http://www.tingni-lab.com/Pancan_IPA),to search and explore IPAs in cancer.展开更多
Cadmium(Cd)has seriously affected the quality of traditional Chinese medicinal material Salvia miltiorrhiza in recent years,threatening human health.The physiological and metabolic profiles of S.miltiorrhiza in respon...Cadmium(Cd)has seriously affected the quality of traditional Chinese medicinal material Salvia miltiorrhiza in recent years,threatening human health.The physiological and metabolic profiles of S.miltiorrhiza in response to Cd stress have been revealed in previous studies.However,transcriptional and post-transcriptional regulation in response to different degrees of Cd(0,25,50,and 100 mg/kg)stress in S.miltiorrhiza remains unclear.Here,transcriptome atlas in S.miltiorrhiza under different degrees of Cd Stress was unveiled using RNA sequencing(RNA-seq).These results showed that the profiles of gene expression were different in the response to Cd treatment.Defense response-related biological processes were involved in differentially expressed genes(DEGs).In total,1966 genes were identified as transcription factors(TFs)with seven expressed trends.Retained intron(RI)was the major phenomenon.Targeted genes of intron splicing factors were identified via weighted gene co-expression network analysis(WGCNA).All of these indicated that transcriptional and post-transcriptional regulations were involved in response to Cd stress in S.miltiorrhiza.Our study will provide the most comprehensive resource for studying heavy metals in traditional Chinese medicine plants.展开更多
目的在兰科石斛属药用植物鉴定中应用新的分子标记。方法扩增并测定9种石斛属植物线粒体中NADH脱氢酶亚基1编码基因(nad 1)内含子2(in tron 2)的全长序列。结果比对后的nad 1 in tron 2序列长872bp,其中有17个变异位点,可以鉴别除粉花石...目的在兰科石斛属药用植物鉴定中应用新的分子标记。方法扩增并测定9种石斛属植物线粒体中NADH脱氢酶亚基1编码基因(nad 1)内含子2(in tron 2)的全长序列。结果比对后的nad 1 in tron 2序列长872bp,其中有17个变异位点,可以鉴别除粉花石斛D end robium lodd ig esii以外的8种植物。结论线粒体nad 1 in tron2序列可以作为一种新的分子标记用于石斛属植物的鉴定。展开更多
利用改良等位基因特异性PCR(Modified Allele Specific PCR,M-ASP)结合PCR-RFLP以及直接测序方法对藏鸡和隐性白羽鸡生长激素(Growth Hormone,GH)基因内含子4(Intron4)的一个位点进行了SNP检测,并进行了该基因与藏鸡生长性状的关联分析...利用改良等位基因特异性PCR(Modified Allele Specific PCR,M-ASP)结合PCR-RFLP以及直接测序方法对藏鸡和隐性白羽鸡生长激素(Growth Hormone,GH)基因内含子4(Intron4)的一个位点进行了SNP检测,并进行了该基因与藏鸡生长性状的关联分析。检测结果显示,GH基因Intron4的这个位点同时具有M-ASP和SacI-RFLP多态。测序结果表明,该位点发生了C→G的碱基突变,产生了CC、CG和GG三种基因型。两个等位基因和三种基因型在两鸡种中的分布基本一致。其中,基因型CC和等位基因C的频率最高。χ2检验结果表明,基因型频率或者等位基因频率在两鸡种之间没有显著差异(P>0.05),而分别在两鸡种内部却存在显著(P<0.05)或极显著(P<0.01)差异。方差分析结果表明,基因型与藏鸡的2周龄体重等12个生长性状有显著(P<0.05)或极显著(P<0.01)关联;基因型CC与藏鸡的7周龄体重存在显著关联(P<0.05)。这暗示了GH基因是影响藏鸡生长的主效基因或者它与主效基因相关,而该位点的碱基突变可以作为筛选藏鸡高的7周龄体重的分子标记。展开更多
A novel cDNA sequencehtMT2, which encodes a type 2 metallothionein_like protein, was isolated from Helianthus tuberosus L. tuber cDNA library. The whole sequence is 509 bp, including an open reading frame (ORF) of 240...A novel cDNA sequencehtMT2, which encodes a type 2 metallothionein_like protein, was isolated from Helianthus tuberosus L. tuber cDNA library. The whole sequence is 509 bp, including an open reading frame (ORF) of 240 bp, a 5′ UTR of 62 bp and a 3′ UTR of 207 bp. Two genomic sequences covering the coding region ofhtMT2were cloned by PCR reaction. Sequence analysis revealed that the genomic sequences htMTG_1 of 986 bp and htMTG_2 of 982 bp were both composed of three exons and two introns. The deduced protein consisted of 79 amino acid residues with a predicted molecular weight of 7.8 ku (kD). Amino_terminal and carboxy_terminal domains contained 8 and 7 cysteine residues respectively, separated by a central cysteine free spacer. Sequence alignment revealed that the predicted protein ofhtMT2 was homologous to type 2 metallothioneins (MTs) of plants. Southern blotting analysis indicated that htMT2was encoded by a small multi_gene family in H. tuberosus genome. Northern blotting analysis showed that htMT2 transcripts were detected in stems, leaves and leafstalks, but no transcripts were detected in roots. The expression level in stems was the highest among the above tissues. Transcripts in stems were significantly reduced by Cu 2+ treatment. Judging from the homologies between the deduced HtMT2 and other type 2 plant metallothioneins as well as responses to metal ions, we believe thatwere cloned by PCR reaction. Sequence analysis revealed that the genomic sequences htMTG_1 of 986 bp and htMTG_2 of 982 bp were both composed of three exons and two introns. The deduced protein consisted of 79 amino acid residues with a predicted molecular weight of 7.8 ku (kD). Amino_terminal and carboxy_terminal domains contained 8 and 7 cysteine residues respectively, separated by a central cysteine free spacer. Sequence alignment revealed that the predicted protein ofhtMT2 was homologous to type 2 metallothioneins (MTs) of plants. Southern blotting analysis indicated that htMT2was encoded by a small multi_gene family in H. tuberosus genome. Northern blotting analysis showed that htMT2 transcripts were detected in stems, leaves and leafstalks, but no transcripts were detected in roots. The expression level in stems was the highest among the above tissues. Transcripts in stems were significantly reduced by Cu 2+ treatment. Judging from the homologies between the deduced HtMT2 and other type 2 plant metallothioneins as well as responses to metal ions, we believe that[ShtMT2 encodes a new type 2 metallothionein.展开更多
基金supported by the National Natural Science Foundation of China(32072126 and 32230075)the Shandong Provincial Natural Science Foundation(ZR2019MC005).
文摘Pentatricopeptide repeat(PPR)proteins are a large group of eukaryote-specific RNA-binding proteins that play pivotal roles in plant organelle gene expression.Here,we report the function of PPR21 in mitochondrial intron splicing and its role in maize kernel development.PPR21 is a typical P-type PPR protein targeted to mitochondria.The ppr21 mutants are arrested in embryogenesis and endosperm development,leading to embryo lethality.Null mutations of PPR21 reduce the splicing efficiency of nad2 intron 1,2,and 4 and impair the assembly and activity of mitochondrial complex I.Previous studies show that the P-type PPR protein EMP12 is required for the splicing of identical introns.However,our protein interaction analyses reveal that PPR21 does not interact with EMP12.Instead,both PPR21 and EMP12 interact with the small MutS-related(SMR)domain-containing PPR protein 1(PPR-SMR1)and the short P-type PPR protein 2(SPR2).PPR-SMR1 interacts with SPR2,and both proteins are required for the splicing of many introns in mitochondria,including nad2 intron 1,2,and 4.These results suggest that a PPR21-(PPR-SMR1/SPR2)-EMP12 complex is involved in the splicing of nad2 introns in maize mitochondria.
基金Supported by Eleventh Five-Year Development Planning For Instructional Science in Hubei Province(2006B131)
文摘In this study,three weight vectors L1,L2 and L3 were set.After calculating the probability of three bases in the exons or introns in the genomic DNA of Arabidopsis thaliana,64-dimensional vector P was obtained.Dot products of P vector and three weight vectors were the feature coordinates for the exons and introns in 3-dimensional phase space.The expression for the interface between the exons and the introns in the genomic DNA of Arabidopsis thaliana in 3-dimensional phase space was established,which could be used to distinguish the exons and the introns in the genomic DNA of Arabidopsis thaliana with an accuracy higher than85%in 3-dimensional phase space.
基金supported by the National Natural Science Fund of China (30970231)the Genetically Modified Organisms Breeding Major Project of China (2014ZX08003001)
文摘supported by the National Natural Science Fund of China (30970231);the Genetically Modified Organisms Breeding Major Project of China (2014ZX08003001)
基金supported by the National Key Research&Development Program of China(Nos.2021YFC2302400,2021YFA1201000,2023YFC2606004)the Fundamental Research Funds for the Central Universities(No.2022CX01013)。
文摘Linear mRNA vaccines are constrained by exonuclease susceptibility and instability,leading to compromised antigen expression.Circular RNA(circRNA) lacking canonical 5' and 3' untranslated regions demonstrates intrinsic exonuclease resistance.Current circularization strategies face three principal limitations:chemical methods produce non-native 2',5'-phosphodiester bonds;ribozyme-mediated approaches are restricted to RNA fragments shorter than 500 nucleotides;the Anabaena Group I intron system retains immunogenic exon sequences.In contrast,the self-splicing Group I intron ribozyme from Tetrahymena enables precisely controlled circularization through autonomous structural rearrangement,yielding exonfree constructs.Through optimized purification protocols,historical scalability challenges are systematically addressed.This Perspective establishes the mechanistic rationale and therapeutic superiority of this engineered RNA circularization platform.
基金This work was supported by the National Transgenic Science and Technology Program (2016ZX08010-002), the National Natural Science Foundation of China (31571374 and 31622047), and Fundamental Research Funds for the Central Universities (2662015PY212) to K.X.
文摘The clustered regularly interspaced short palindromic repeat (CRISPR) system has emerged as the revolu- tionary platform for DNA targeting. This system uses a site-specific RNA guide to direct a CRISPR effector (e.g., Cas9 and Cpfl) to a DNA target. Here, we elaborate a general strategy to simultaneously express multiple guide RNAs (gRNA) and CRISPR RNAs (crRNA) from introns of Cas9 and Cpfl. This method utilizes the endogenous tRNA processing system or crRNA processing activity of Cpfl to cleave the spliced intron that contains tRNA-gRNA polycistron or crRNA-crRNA array. We demonstrated that the tRNA-gRNA intron is able to fuse with Cas9 as one gene. Such a hybrid gene could be expressed using one polymerase II promoter, and exhibited high efficiency and robustness in simultaneously targeting multiple sites. We also implemented this strategy in Cpfl-mediated genome editing using intronic tRNA-crRNA and crRNA-crRNA arrays. Interestingly, hybrid genes containing Cpfl and intronic crRNA array exhibited remarkably increased efficiency compared with the conventional Cpfl vectors. Taken together, this study presents a method to express CRISPR reagents from one hybrid gene to increase genome-editing efficiency and capacity. Owing to its simplicity and versatility, this method could be broadly used to develop sophisticated CRISPR tools in eukaryotes.
文摘Alternative splicing (AS) is a vital genetic mechanism that enhances the diversity of eukaryotic transcriptomes. Here, we generated 8.3 Gb high-quality RNA-sequencing data from cotton (Gossypium raimondii) and performed a systematic, comparative analysis of AS events. We mapped 85% of the RNA-sequencing data onto the reference genome and identified 154 368 splice junctions with 16 437 as events in 10197 genes. I ntron retention constituted the majority (40%) of all AS events in G. raimondii. Comparison across 11 eukaryote species showed that intron retention is the most common AS type in higher plants. Although transposable elements (TEs) were found in only 2.9% of all G. raimondii introns, they are present in 43% of the retained introns, suggesting that TE-insertion may be an important mechanism for intron retention during AS. The majority of the TE insertions are concentrated 0-40 nt upstream of the 3'-splice site, substantially altering the distribution of branch points from preferred positions and reducing the efficiency of intron splicing by decreasing RNA secondary structure flexibility. Our data suggest that TE-insertion-induced changes in branch point-site distribution are important for intron retention-type AS. Our findings may help explain the vast differences in intron-retention frequencies between vertebrates and higher plants.
文摘Introns and exons of 7 genes ( epsilon globin, gamma-1 globin, gamma-2 globin, delta globin, beta globin, Immunoglobulin and prepro-insulin) in primates have been separated out and used to infer phylogeny respectively. For each gene, results based on these two parts have been compared and showed that: ( i ) the topology of introns is almost
文摘The intron is an important component of eu-karyotic gene. Extensive studies have been conducted to get a better understanding of its structure and function. This paper presents a brief review of the structure and function of introns in higher plant genes. It is shown that higher plant introns possess structural properties shared by all eukaryotic introns, however, they also exhibit a striking degree of diversity. The process of intron splicing in higher plant genes involves interaction between multiple cis -acting elements and trans-acting factors, such as 5’ splicing site, 3’ splicing site and many protein factors. The process of intron splicing is an important level at which gene expression is regulated. Especially alternative splicing of intron can regulate time and space of gene expression. In addition, some introns in higher plant genes also regulate gene expression by affecting the pattern of gene expression, enhancing the level of gene expression and driving the gene expression.
基金supported by the National Natural Science Foundation of China (Project Nos.32072126 and 32230075)the Shandong Provincial Natural Science Foundation (Project No.ZR2019MC005)。
文摘RNA helicases participate in nearly all aspects of RNA metabolism by rearranging RNAs or RNA–protein complexes in an adenosine triphosphatedependent manner.Due to the large RNA helicase families in plants,the precise roles of many RNA helicases in plant physiology and development remain to be clarified.Here,we show that mutations in maize(Zea mays)DEAD-box RNA helicase48(Zm RH48)impair the splicing of mitochondrial introns,mitochondrial complex biosynthesis,and seed development.Loss of Zm RH48 function severely arrested embryogenesis and endosperm development,leading to defective kernel formation.Zm RH48 is targeted to mitochondria,where its deficiency dramatically reduced the splicing efficiency of five cis-introns(nad5 intron 1;nad7 introns 1,2,and 3;and ccm Fc intron 1)and one trans-intron(nad2 intron 2),leading to lower levels of mitochondrial complexes I andⅢ.Zm RH48 interacts with two unique pentatricopeptide repeat(PPR)proteins,PPR-SMR1 and SPR2,which are required for the splicing of over half of all mitochondrial introns.PPR-SMR1 interacts with SPR2,and both proteins interact with P-type PPR proteins and Zm-m CSF1 to facilitate intron splicing.These results suggest that Zm RH48 is likely a component of a splicing complex and is critical for mitochondrial complex biosynthesis and seed development.
基金the Tsinghua-Peking Joint Center for Life Sciences,the Thousand-Talent Young Investigator Program,the IDG/McGovern Institute for Brain Research,the National Natural Science Foundation of China(81371361,92049114,31571097,82101495)The Beijing Municipal Science&Technology Commission(Z181100001518001,Z161100000216154)+1 种基金National Key R&D Program(2017YFC0110205)the Institute for Guo Qiang,Tsinghua University。
文摘Emerging evidence suggests that intron-detaining transcripts(IDTs)are a nucleus-detained and polyadenylated mRNA pool for cell to quickly and effectively respond to environmental stimuli and stress.However,the underlying mechanisms of detained intron(DI)splicing are still largely unknown.Here,we suggest that post-transcriptional DI splicing is paused at the Bact state,an active spliceosome but not catalytically primed,which depends on Smad Nuclear Interacting Protein 1(SNIP1)and RNPS1(a serine-rich RNA binding protein)interaction.RNPS1 and Bact components preferentially dock at DIs and the RNPS1 docking is sufficient to trigger spliceosome pausing.Haploinsufficiency of Snip1 attenuates neurodegeneration and globally rescues IDT accumulation caused by a previously reported mutant U2 snRNA,a basal spliceosomal component.Snip1 conditional knockout in the cerebellum decreases DI splicing efficiency and causes neurodegeneration.Therefore,we suggest that SNIP1 and RNPS1 form a molecular brake to promote spliceosome pausing,and that its misregulation contributes to neurodegeneration.
基金This study was supported by the National Natural Science Foundation of China(31100180,31470337,31570231)Shanghai Natural Science Foundation(18ZR1428200)+1 种基金The Fund of Innovation Program of Shanghai Municipal Education Commission(2021-01-07-00-02-E00117)Shanghai Engineering Research Center of Plant Germplasm Resources(17DZ2252700)。
文摘Chloroplast biogenesis requires the coordinated expression of chloroplast and nuclear genes.Here, we show that EMB1270, a plastid-localized pentatricopeptide repeat(PPR) protein, is required for chloroplast biogenesis in Arabidopsis thaliana.Knockout of EMB1270 led to embryo arrest,whereas a mild knockdown mutant of EMB1270 displayed a virescent phenotype. Almost no photosynthetic proteins accumulated in the albino emb1270 knockout mutant. By contrast, in the emb1270 knockdown mutant, the levels of ClpP1 and photosystem I(PSI) subunits were significantly reduced, whereas the levels of photosystem II(PSII) subunits were normal. Furthermore, the splicing efficiencies of the clpP1.2,ycf3.1, ndhA, and ndhB plastid introns were dramatically reduced in both emb1270 mutants. RNA immunoprecipitation revealed that EMB1270 associated with these introns in vivo. In an RNA electrophoretic mobility shift assay(REMSA), a truncated EMB1270 protein containing the 11 Nterminal PPR motifs bound to the predicted sequences of the clpP1.2, ycf3.1, and ndhA introns.In addition, EMB1270 specifically interacted with CRM Family Member 2(CFM2). Given that CFM2 is known to be required for splicing the same plastid RNAs, our results suggest that EMB1270 associates with CFM2 to facilitate the splicing of specific group II introns in Arabidopsis.
基金funded by the New Breeding Technology program(no,PJ01686202)the National Research Foundation of Korea(NRF+2 种基金No.2022R1A2B5B02002008)Research Initiative Programs of the Korea Research Institute of Bioscience and Biotechnology(KRIBBNo.5372322)grants to H.C.
文摘Peptidyl-prolyl isomerase-like 1(PPIL1)is associated with the human spliceosome complex.However,its function in pre-mRNA splicing remains unclear.In this study,we show that Arabidopsis thaliana CYCLOPHILIN 18-2(AtCYP18-2),a PPIL1 homolog,plays an essential role in heat tolerance by regulating pre-mRNA splicing.Under heat stress conditions,AtCYP18-2 expression was upregulated in mature plants and GFP-tagged AtCYP18-2 redistributed to nuclear and cytoplasmic puncta.We determined that AtCYP18-2 interacts with several spliceosome complex B^(ACT)components in nuclear puncta and is primarily associated with the small nuclear RNAs U5 and U6 in response to heat stress.The AtCYP18-2 loss-of-function allele cyp18-2 engineered by CRISPR/Cas9-mediated gene editing exhibited a hypersensitive phenotype to heat stress relative to the wild type.Moreover,global transcriptome profiling showed that the cyp18-2 mutation affects alternative splicing of heat stress–responsive genes under heat stress conditions,particularly intron retention(IR).The abundance of most intron-containing transcripts of a subset of genes essential for thermotolerance decreased in cyp18-2 compared to the wild type.Furthermore,the intron-containing transcripts of two heat stress-related genes,HEAT SHOCK PROTEIN 101(HSP101)and HEAT SHOCK FACTOR A2(HSFA2),produced functional proteins.HSP101-IR-GFP localization was responsive to heat stress,and HSFA2-Ⅲ-IR interacted with HSF1 and HSP90.1 in plant cells.Our findings reveal that CYP18-2 functions as a splicing factor within the B~(ACT)spliceosome complex and is crucial for ensuring the production of adequate levels of alternatively spliced transcripts to enhance thermotolerance.
基金This work was financially supported by the National Natural Science Foundation of China(92249302,32370592)the National Key Research and Development Program of China(2023YFC3603300,2021YFA0909300).
文摘Intronic polyadenylation(IPA)is an RNA 3'end processing event which has been reported to play important roles in cancer development.However,the comprehensive landscape of IPA events across various cancer types is lacking.Here,we apply IPAFinder to identify and quantify IPA events in 10,383 samples covering all 33 cancer types from The Cancer Genome Atlas(TCGA)project.We identify a total of 21,835 IPA events,almost half of which are ubiquitously expressed.We identify 2761 unique dynamically changed IPA events across cancer types.Furthermore,we observe 8855 non-redundant clinically relevant IPA events,which could potentially be used as prognostic indicators.Our analysis also reveals that dynamic IPA usage within cancer signaling pathways may affect drug response.Finally,we develop a user-friendly data portal,IPACancer Atlas(http://www.tingni-lab.com/Pancan_IPA),to search and explore IPAs in cancer.
基金supported by Jiangxi Provincial Natural Science Foundation(20232BAB216119)Science and Technology Research Project of Jiangxi Provincial Department of Education(GJJ2200978)+1 种基金Jiangxi Provincial Health Commission S&T Plan(SKJP220227132)Jiangxi Provincial Administration of Traditional Chinese Medicine S&T Program(2022A392).
文摘Cadmium(Cd)has seriously affected the quality of traditional Chinese medicinal material Salvia miltiorrhiza in recent years,threatening human health.The physiological and metabolic profiles of S.miltiorrhiza in response to Cd stress have been revealed in previous studies.However,transcriptional and post-transcriptional regulation in response to different degrees of Cd(0,25,50,and 100 mg/kg)stress in S.miltiorrhiza remains unclear.Here,transcriptome atlas in S.miltiorrhiza under different degrees of Cd Stress was unveiled using RNA sequencing(RNA-seq).These results showed that the profiles of gene expression were different in the response to Cd treatment.Defense response-related biological processes were involved in differentially expressed genes(DEGs).In total,1966 genes were identified as transcription factors(TFs)with seven expressed trends.Retained intron(RI)was the major phenomenon.Targeted genes of intron splicing factors were identified via weighted gene co-expression network analysis(WGCNA).All of these indicated that transcriptional and post-transcriptional regulations were involved in response to Cd stress in S.miltiorrhiza.Our study will provide the most comprehensive resource for studying heavy metals in traditional Chinese medicine plants.
文摘目的在兰科石斛属药用植物鉴定中应用新的分子标记。方法扩增并测定9种石斛属植物线粒体中NADH脱氢酶亚基1编码基因(nad 1)内含子2(in tron 2)的全长序列。结果比对后的nad 1 in tron 2序列长872bp,其中有17个变异位点,可以鉴别除粉花石斛D end robium lodd ig esii以外的8种植物。结论线粒体nad 1 in tron2序列可以作为一种新的分子标记用于石斛属植物的鉴定。
文摘利用改良等位基因特异性PCR(Modified Allele Specific PCR,M-ASP)结合PCR-RFLP以及直接测序方法对藏鸡和隐性白羽鸡生长激素(Growth Hormone,GH)基因内含子4(Intron4)的一个位点进行了SNP检测,并进行了该基因与藏鸡生长性状的关联分析。检测结果显示,GH基因Intron4的这个位点同时具有M-ASP和SacI-RFLP多态。测序结果表明,该位点发生了C→G的碱基突变,产生了CC、CG和GG三种基因型。两个等位基因和三种基因型在两鸡种中的分布基本一致。其中,基因型CC和等位基因C的频率最高。χ2检验结果表明,基因型频率或者等位基因频率在两鸡种之间没有显著差异(P>0.05),而分别在两鸡种内部却存在显著(P<0.05)或极显著(P<0.01)差异。方差分析结果表明,基因型与藏鸡的2周龄体重等12个生长性状有显著(P<0.05)或极显著(P<0.01)关联;基因型CC与藏鸡的7周龄体重存在显著关联(P<0.05)。这暗示了GH基因是影响藏鸡生长的主效基因或者它与主效基因相关,而该位点的碱基突变可以作为筛选藏鸡高的7周龄体重的分子标记。
文摘A novel cDNA sequencehtMT2, which encodes a type 2 metallothionein_like protein, was isolated from Helianthus tuberosus L. tuber cDNA library. The whole sequence is 509 bp, including an open reading frame (ORF) of 240 bp, a 5′ UTR of 62 bp and a 3′ UTR of 207 bp. Two genomic sequences covering the coding region ofhtMT2were cloned by PCR reaction. Sequence analysis revealed that the genomic sequences htMTG_1 of 986 bp and htMTG_2 of 982 bp were both composed of three exons and two introns. The deduced protein consisted of 79 amino acid residues with a predicted molecular weight of 7.8 ku (kD). Amino_terminal and carboxy_terminal domains contained 8 and 7 cysteine residues respectively, separated by a central cysteine free spacer. Sequence alignment revealed that the predicted protein ofhtMT2 was homologous to type 2 metallothioneins (MTs) of plants. Southern blotting analysis indicated that htMT2was encoded by a small multi_gene family in H. tuberosus genome. Northern blotting analysis showed that htMT2 transcripts were detected in stems, leaves and leafstalks, but no transcripts were detected in roots. The expression level in stems was the highest among the above tissues. Transcripts in stems were significantly reduced by Cu 2+ treatment. Judging from the homologies between the deduced HtMT2 and other type 2 plant metallothioneins as well as responses to metal ions, we believe thatwere cloned by PCR reaction. Sequence analysis revealed that the genomic sequences htMTG_1 of 986 bp and htMTG_2 of 982 bp were both composed of three exons and two introns. The deduced protein consisted of 79 amino acid residues with a predicted molecular weight of 7.8 ku (kD). Amino_terminal and carboxy_terminal domains contained 8 and 7 cysteine residues respectively, separated by a central cysteine free spacer. Sequence alignment revealed that the predicted protein ofhtMT2 was homologous to type 2 metallothioneins (MTs) of plants. Southern blotting analysis indicated that htMT2was encoded by a small multi_gene family in H. tuberosus genome. Northern blotting analysis showed that htMT2 transcripts were detected in stems, leaves and leafstalks, but no transcripts were detected in roots. The expression level in stems was the highest among the above tissues. Transcripts in stems were significantly reduced by Cu 2+ treatment. Judging from the homologies between the deduced HtMT2 and other type 2 plant metallothioneins as well as responses to metal ions, we believe that[ShtMT2 encodes a new type 2 metallothionein.
