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Intron

About: Intron is a research topic. Over the lifetime, 23850 publications have been published within this topic receiving 1305164 citations. The topic is also known as: introns.


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Journal ArticleDOI
TL;DR: It is shown that maize cell cultures (Black Mexican Sweet, BMS) can be used to examine the molecular details involved in splicing failure and Splicing of transcripts from a marked, introduced gene can be compared to the endogeneous Bz2 gene facilitating analysis of the impact of sequence changes.
Abstract: A large fraction of the transcripts of the Bronze-2 (Bz2) gene of maize (Zea mays L.) are unspliced in purple husk tissues. The accumulation of unspliced messages could have destructive potential if the intron-bearing mRNAs are translated into aberrant proteins. Our initial studies suggested that both genetic and physiological factors may influence the degree of splicing failure. Nuclear background rather than cis-sequence effects is shown to contribute to the genetic component. The accumulation of unspliced message does not appear to be directly influenced by diurnal effects on transcript abundance, by the expression level of the Bz2 gene, or by thermal stress. We also show that maize cell cultures (Black Mexican Sweet, BMS) can be used to examine the molecular details involved in splicing failure. Much like whole maize plants, the BMS cells excise the Bz2 intron with varying degrees of efficiency. In contrast with heterologous constructs containing plant introns, splicing of the native Bz2 intron can appproach 100% in BMS cells. Splicing of transcripts from a marked, introduced gene can be compared to the endogeneous Bz2 gene facilitating analysis of the impact of sequence changes.

34 citations

Journal ArticleDOI
26 Jul 2016-PLOS ONE
TL;DR: Gene ontology and KEGG pathway analyses revealed that the cytokine–cytokine receptor interaction pathway is the most significantly enriched pathway for alternative splicing in cows naturally infected with mastitis.
Abstract: Alternative splicing (AS) contributes to the complexity of the mammalian proteome and plays an important role in diseases, including infectious diseases. The differential AS patterns of these transcript sequences between the healthy (HS3A) and mastitic (HS8A) cows naturally infected by Staphylococcus aureus were compared to understand the molecular mechanisms underlying mastitis resistance and susceptibility. In this study, using the Illumina paired-end RNA sequencing method, 1352 differentially expressed genes (DEGs) with higher than twofold changes were found in the HS3A and HS8A mammary gland tissues. Gene ontology and KEGG pathway analyses revealed that the cytokine–cytokine receptor interaction pathway is the most significantly enriched pathway. Approximately 16k annotated unigenes were respectively identified in two libraries, based on the bovine Bos taurus UMD3.1 sequence assembly and search. A total of 52.62% and 51.24% annotated unigenes were alternatively spliced in term of exon skipping, intron retention, alternative 5′ splicing and alternative 3ʹ splicing. Additionally, 1,317 AS unigenes were HS3A-specific, whereas 1,093 AS unigenes were HS8A-specific. Some immune-related genes, such as ITGB6, MYD88, ADA, ACKR1, and TNFRSF1B, and their potential relationships with mastitis were highlighted. From Chromosome 2, 4, 6, 7, 10, 13, 14, 17, and 20, 3.66% (HS3A) and 5.4% (HS8A) novel transcripts, which harbor known quantitative trait locus associated with clinical mastitis, were identified. Many DEGs in the healthy and mastitic mammary glands are involved in immune, defense, and inflammation responses. These DEGs, which exhibit diverse and specific splicing patterns and events, can endow dairy cattle with the potential complex genetic resistance against mastitis.

34 citations

Journal ArticleDOI
TL;DR: The results indicate that alterations to transfectant cell morphology can be influenced by the presence or absence of different noncoding regions in the transfected gamma-actin gene.
Abstract: We have addressed the question of whether two highly conserved noncoding regions of the gamma-actin gene are of functional importance. Human gamma-actin gene constructs deleted for either the entire 3' untranslated region (UTR) and 3' flank or intron III sequences were transfected into mouse myoblasts and the resulting clones were analyzed for cell morphology and actin protein expression. Transfectants carrying the gamma-actin gene deleted for the 3' end (gamma 22) exhibited numerous long pseudopods and increased surface area. In contrast, transfectants expressing the gamma-actin gene deleted for intron III (gamma 156) were rounded with blebs over the cell surface and showed decreased surface area. The relative expression of beta- to gamma-actin protein decreased for both transfectant types. The total actin protein levels remained constant for the gamma 22 cells but decreased for the gamma 156 cells. The results indicate that alterations to transfectant cell morphology can be influenced by the presence or absence of different noncoding regions in the transfected gamma-actin gene. The mechanisms by which noncoding regions of the gamma-actin gene influence the impact of the gene are unknown. Nevertheless, these noncoding regions are isoform specific and highly conserved in evolution. We propose that the functional significance of the different actin isoforms may involve the properties of these noncoding regions in addition to the differences in protein sequence.

34 citations

Journal ArticleDOI
TL;DR: The results indicate that both AtCOX17 genes have similar, though not identical, expression characteristics and suggest the existence in their promoters of elements involved in tissue-specific expression and in responses to factors that may produce mitochondrial or cell damage.
Abstract: AtCOX17 genes encode Arabidopsis thaliana homologs of the yeast metal-lochaperone Cox17p, involved in the delivery of copper for cytochrome c oxidase (COX) assembly. Two different AtCOX17 genes, located in chromosomes 1 and 3, are present in the Arabidopsis genome. Sequences available in data banks indicate that the presence of two genes is a common feature in monocots, but not in dicots, suggesting that Arabidopsis genes may be the result of a recent duplication. Sequences upstream from the translation start sites of AtCOX17 genes, which include an intron located in the 5' leader region, were introduced into plants in front of the gus gene. For both genes, expression was localized preferentially in young roots and anthers, but almost 10-fold higher β-glucuronidase activity levels were observed in plants transformed with AtCOX17-1 upstream regions. Both promoters were induced to different extents by wounding, treatment of leaves with the bacterial pathogen Pseudomonas syringae and incubation with agents that produce oxidative stress and metals. AtCOX17-2 showed similar responses to these factors, while AtCOX17-1 was more strongly induced by relatively low (10-100 μM) copper. The results indicate that both AtCOX17 genes have similar, though not identical, expression characteristics and suggest the existence in their promoters of elements involved in tissue-specific expression and in responses to factors that may produce mitochondrial or cell damage. It can be speculated that Arabidopsis COX17 accumulates under stress conditions to actively replace damaged or inactive cytochrome c oxidase to sustain cyanide-sensitive respiration in plant cells.

34 citations

Posted ContentDOI
09 Jan 2019-bioRxiv
TL;DR: It is shown that loss-of-function in SmB, encoding a core spliceosomal protein, causes decreased survival, progressive locomotor impairment, and neuronal loss, independent of Tau toxicity, and these results implicateSpliceosome disruption and perturbations of the neuronal transcriptome in Tau-mediated neurodegeneration in AD.
Abstract: SUMMARY In Alzheimer’s disease (AD), spliceosomal proteins with critical roles in RNA processing aberrantly aggregate and mislocalize to Tau neurofibrillary tangles. We test the hypothesis that Tau-spliceosome interactions disrupt pre-mRNA splicing in AD. In human postmortem brain with AD pathology, Tau coimmunoprecipitates with spliceosomal core components. In Drosophila models, pan-neuronal Tau expression triggers reductions in core and U1-specific spliceosomal proteins, and genetic disruption of these factors, including SmB, U1-70K, and U1A, enhances Tau-mediated neurodegeneration. We further show that loss-of-function in SmB , encoding a core spliceosomal protein, causes decreased survival, progressive locomotor impairment, and neuronal loss, independent of Tau toxicity. Lastly, RNA-sequencing reveals a similar profile of mRNA splicing errors in SmB mutant and Tau transgenic flies, including intron retention and non-annotated cryptic splice junctions. In human brains, we confirm cryptic splicing errors in association with neurofibrillary tangle pathologic burden. Our results implicate spliceosome disruption and perturbations of the neuronal transcriptome in Tau-mediated neurodegeneration in AD.

34 citations


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Performance
Metrics
No. of papers in the topic in previous years
YearPapers
2023370
2022776
2021479
2020457
2019470
2018436