RNA editing analysis of ATP synthase genes in the cotton cytoplasmic male sterile line H276A

BACKGROUND: Pollen development is an energy-consuming process that particularly occurs during meiosis. Low levels of adenosine triphosphate (ATP) may cause cell death, resulting in CMS (cytoplasmic male sterility). DNA sequence differences in ATP synthase genes have been revealed between the N- and S-cytoplasms in the cotton CMS system. However, very few data are available at the RNA level. In this study, we compared five ATP synthase genes in the H276A, H276B and fertile F1 (H276A/H268) lines using RNA editing, RNA blotting and quantitative real time-PCR (qRT-PCR) to explore their contribution to CMS. A molecular marker for identifying male sterile cytoplasm (MSC) was also developed. RESULTS: RNA blotting revealed the absence of any novel orf for the ATP synthase gene sequence in the three lines. Forty-one RNA editing sites were identified in the coding sequences. RNA editing showed that proteins had 32.43% higher hydrophobicity and that 39.02% of RNA editing sites had proline converted to leucine. Two new stop codons were detected in atp6 and atp9 by RNA editing. Real-time qRT-PCR data showed that the atp1, atp6, atp8, and atp9 genes had substantially lower expression levels in H276A compared with those in H276B. By contrast, the expression levels of all five genes were increased in F1 (H276A/H268). Moreover, a molecular marker based on a 6-bp deletion upstream of atp8 in H276A was developed to identify male sterile cytoplasm (MSC) in cotton. CONCLUSIONS: Our data substantially contributes to the understanding of the function of ATP synthase genes in cotton CMS. Therefore, we suggest that ATP synthase genes might be an indirect cause of cotton CMS. Further research is needed to investigate the relationship among ATP synthase genes in cotton CMS.

Identification of neoantigens derived from alternative splicing and RNA modification

The acquisition of somatic mutations is the most common event in cancer. Neoantigens expressed from genes with mutations acquired during carcinogenesis can be tumor-specific. Since the immune system recognizes tumor-specific peptides, they are potential targets for personalized neoantigen-based immunotherapy. However, the discovery of druggable neoantigens remains challenging, suggesting that a deeper understanding of the mechanism of neoantigen generation and better strategies to identify them will be required to realize the promise of neoantigen-based immunotherapy. Alternative splicing and RNA editing events are emerging mechanisms leading to neoantigen production. In this review, we outline recent work involving the large-scale screening of neoantigens produced by alternative splicing and RNA editing. We also describe strategies to predict and validate neoantigens from RNA sequencing data.

Curcumin modulates the apolipoprotein B mRNA editing by coordinating the expression of cytidine deamination to uridine editosome components in primary mouse hepatocytes

Curcumin, an active ingredient of Curcuma longa L., can reduce the concentration of low-density lipoproteins in plasma, in different ways. We had first reported that curcumin exhibits hypocholesterolemic properties by improving the apolipoprotein B (apoB) mRNA editing in primary rat hepatocytes. However, the role of curcumin in the regulation of apoB mRNA editing is not clear. Thus, we investigated the effect of curcumin on the expression of multiple editing components of apoB mRNA cytidine deamination to uridine (C-to-U) editosome. Our results demonstrated that treatment with 50 µM curcumin markedly increased the amount of edited apoB mRNA in primary mouse hepatocytes from 5.13%–8.05% to 27.63%–35.61%, and significantly elevated the levels of the core components apoB editing catalytic polypeptide-1 (APOBEC-1), apobec-1 complementation factor (ACF), and RNA-binding-motif-protein-47 (RBM47), as well as suppressed the level of the inhibitory component glycine-arginine-tyrosine-rich RNA binding protein. Moreover, the increased apoB RNA editing by 50 µM curcumin was significantly reduced by siRNA-mediated APOBEC-1, ACF, and RBM47 knockdown. These findings suggest that curcumin modulates apoB mRNA editing by coordinating the multiple editing components of the editosome in primary hepatocytes. Our data provided evidence for curcumin to be used therapeutically to prevent atherosclerosis.

ADAR1 up-regulates ZNF655 expression via RNA editing and enhances HBV replication in HepG2 cell line / 基础医学与临床

Objective To explore the effect of ADAR1 on ZNF655 and the regulation of ZNF655 on the expression of HBV. Methods Sanger sequencing was used to validate the 3′UTR region of ZNF655 in ADAR1. The expression of ADAR1 and ZNF655 mRNA as well as HBV RNA were detected by RT-qPCR. Dual luciferase report plasmid assay was used to detect the expression of luciferase. To detect the expression of ADAR1 and ZNF655 pro-tein by Western blot. HBsAg and HBeAg was detected by ELISA. Results The chr7:99575277 loci on ZNF655 3′UTR was homozygous in DNA level and hybrid in RNA level. On the 3′UTR editing site of ZNF655,the luciferase activity of the edited G allele was significantly higher than that of the normal A allele (P＜0.001). The expression of ZNF655 was upregulated by ADAR1 in the level of transcription and translation(P＜0.01).ZNF655 significantly promoted the expression of HBV. Conclusions The chr7:99575277 loci on ZNF655 3′UTR is edited by ADAR1, promoting the expression of ZNF655,which upregulated the expression of HBV.

Genome-wide gene expression patterns in dikaryon of the basidiomycete fungus Pleurotus ostreatus

Abstract Dikarya is a subkingdom of fungi that includes Ascomycota and Basidiomycota. The gene expression patterns of dikaryon are poorly understood. In this study, we bred a dikaryon DK13 × 3 by mating monokaryons MK13 and MK3, which were from the basidiospores of Pleurotus ostreatus TD300. Using RNA-Seq, we obtained the transcriptomes of the three strains. We found that the total transcript numbers in the transcriptomes of the three strains were all more than ten thousand, and the expression profile in DK13 × 3 was more similar to MK13 than MK3. However, the genes involved in macromolecule utilization, cellular material synthesis, stress-resistance and signal transduction were much more up-regulated in the dikaryon than its constituent monokaryons. All possible modes of differential gene expression, when compared to constituent monokaryons, including the presence/absence variation, and additivity/nonadditivity gene expression in the dikaryon may contribute to heterosis. By sequencing the urease gene poure sequences and mRNA sequences, we identified the monoallelic expression of the poure gene in the dikaryon, and its transcript was from the parental monokaryon MK13. Furthermore, we discovered RNA editing in the poure gene mRNA of the three strains. These results suggest that the gene expression patterns in dikaryons should be similar to that of diploids during vegetative growth.

Salt stress affects mRNA editing in soybean chloroplasts

Abstract Soybean, a crop known by its economic and nutritional importance, has been the subject of several studies that assess the impact and the effective plant responses to abiotic stresses. Salt stress is one of the main environmental stresses and negatively impacts crop growth and yield. In this work, the RNA editing process in the chloroplast of soybean plants was evaluated in response to a salt stress. Bioinformatics approach using sRNA and mRNA libraries were employed to detect specific sites showing differences in editing efficiency. RT-qPCR was used to measure editing efficiency at selected sites. We observed that transcripts of NDHA, NDHB, RPS14 and RPS16 genes presented differences in coverage and editing rates between control and salt-treated libraries. RT-qPCR assays demonstrated an increase in editing efficiency of selected genes. The salt stress enhanced the RNA editing process in transcripts, indicating responses to components of the electron transfer chain, photosystem and translation complexes. These increases can be a response to keep the homeostasis of chloroplast protein functions in response to salt stress.

ADAR2 inhibits MAVS expression by editing its 3'UTR in cells / 基础医学与临床

Objective To investigate the effect of ADAR2 on the expression of MAVS and its mechanism.MethodsThe RT-qRCR was used to detect the expression of ADAR gene family, the expression level of ADAR2 and MAVS in cells.The effect of ADAR2 on the 3'UTR region of MAVS was detected by Pyrosequencing.To detect the expression of luciferase by dual luciferase reporter plasmid assay;The expression of ADAR2 and MAVS were detected by Western blot.Results In the ADAR family, the abundance of ADAR1 was the highest, followed by ADAR2, but the expression of ADAR3 was poor, which was almost impossible to detect(P<0.05).ADAR2 played a critical role in RNA editing of chr20:3869744 sites on the 3'UTR region of MAVS(P<0.001).On the 3'UTR editing site of MAVS, the luciferase activity of the edited G allele was significantly lower than that of the normal A allele(P<0.01).At the level of transcription and translation, ADAR2 significantly inhibited the expression of MAVS(P<0.05).Conclusions ADAR2 by editing MAVS` 3'UTR on the chr20:3869744 site, which makes the occurrence of A to G replacement, inhibits the expression of MAVS.

Adenosine to inosine acting on RNA enzymes 1 (ADAR1) contribute to the progression of tumor / 国际外科学杂志

Tumor occurrence and development is a complicated process.Previous studies confirm that DNA mutations result in activation of downstream pathways of tumor cells.Recently,studies of post-translational modifications showed that RNA editing play an important role in transcriptional mechanism.Thus,RNA editing further enrich the diversity of RNA and protein,participate in the process of many diseases,including cancer.Recently,many studies have focused on the RNA editing enzymne ADAR1 because of the complexity role in tumorigenesis and progression.This article mainly reviewed the role of ADAR1 in the occurrence and development of tumors.

The roles of RNA-editing enzyme ADAR1 in EV71 infection and virus mutation / 复旦学报（医学版）

Objective To identify the role of RNA-editing enzyme ADAR1 (adenosine deaminase acting on RNA) in EV71 infection and virus mutation.Methods RNAi technology was applied to establish ADAR1 knock-down stable cell lines.Then the cells were served to evaluate the role of ADAR1 in EV71 infection by MTT assay for detecting virus-induced cell viability,virus plaque assay for quantification of the virus titer and the cellular susceptibility to the virus,and Western blot for virus protein expressions.ADAR1-mediated RNA editing can result in the genetic A-G and T-C mutations.To further determine whether the effects of ADAR1 on EV71 infection were correlated with ADAR1-mediated EV71 RNA editing and therefore increased the viral mutations during the infection,the characteristics of EV71 mutation were analyzed based on the different full-length viral genomes from epidemic regions.The viral genome was also sequenced from the infected ADAR1 knock-down cells.Results After ADAR1 knock-down,the cell viability decreased quickly after the virus infection,and formed much more and larger sizes of plaques than the control cells.The virus capsid protein VP1 expressions and virus titer in the cells culture media were both increased in ADAR1 knockdown cells.Statistic analysis showed that A-G and T-C mutations were the major mutations of EV71,which were believed to be the hot sites for RNA-editing.However,the results of viral RNA genomic sequencing data indicated that ADAR1 did not edit EV71 genome directly.Conclusions ADAR1 was a restriction factor for controlling EV71.However,ADAR1 does not directly edit EV71 genome.

Identification of Diverse Adenosine-to-Inosine RNA Editing Subtypes in Colorectal Cancer / Journal of the Korean Cancer Association, 대한암학회지

PURPOSE: RNA editing generates protein diversity by altering RNA sequences in coding regions without changing the overall DNA sequence. Adenosine-to-inosine (A-to-I) RNA editing events have recently been reported in some types of cancer, but they are rare in human colorectal cancer (CRC). Therefore, this study was conducted to identify diverse RNA editing in CRC. MATERIALS AND METHODS: We compared transcriptome data of 39 CRC samples and paired adjacent tissues from The Cancer Genome Atlas database to identify RNA editing patterns in CRC, focusing on canonical A-to-I RNA edits in coding sequence regions. We investigated nonsynonymous RNA editing patterns by comparing tumor and normal tissue transcriptome data. RESULTS: The number of RNA edits varied from 12 to 42 per sample. We also observed that hypoand hyper-RNA editing patterns were distinguishable within the samples. We found 10 recurrent nonsynonymous RNA editing candidates in nine genes (PDLIM, NEIL1, SRP9, GLI1, APMAP, IGFBP7, ZNF358, COPA, and ZNF587B) and validated some by Sanger sequencing and the inosine chemical erasing assay. We further showed that editing at these positions was performed by the adenosine deaminase acting on RNA 1 enzyme. Most of these genes are hypoedited in CRC, but editing of GLI1 was increased in cancer tissues compared with normal tissues. CONCLUSION: Our results show that nonsynonymous RNA editing patterns can be used to identify CRC patients and could serve as novel biomarkers for CRC.

Application of CRISPR/Cas9 system in virus research / 临床肝胆病杂志

To date,the clustered regularly interspaced short palindromic repeat (CRISPR)/Cas9 system has been widely used to edit the genome in many species and cells.The system is the third generation of artificial endonuclease,which can edit DNA by recognizing short DNA sequences.This paper reviews the structural features of the system and its application in virus research,such as the functional studies of virus-related genes and the exploration of antiviral therapies (including HIV,HBV,and EB virus),looking forward to the future direc-tion of virus research.

Analysis of alternative splicing pattern of ADAR2 pre-mRNA in human glioma cell lines / 中国肿瘤临床

Objective:This study aims to analyze the differences in the alternative splicing pattern of ADAR2 among glioma cell lines U87, U251, A172, and normal human astrocyte HA1800. Methods:A-to-I editing level at the Q/R-Site of GluR-2 was analyzed by RT-PCR and sequencing. Real-time PCR was performed to detect the expression level of each alternatively splicing variant using a specific primer that was confirmed to amplify only the targeted template and not other alternatively spliced variant fragments. Results:We verified that the Q/R-Site of GluR-2 is under-edited in glioma cell lines. Real-time PCR revealed that the ADAR2 pre-mRNA splic-ing pattern has no significant difference at exons 1a and 2 between glioma cell lines and normal human astrocyte. We also detected that the amount of alternative splicing variants, including exon 5a, was higher than that of alternative splicing variants not including exon 5a in human glioma cell lines. However, the expression of alternative splicing variants, including exon 5a, was lower than that of alterna-tive splicing variants not including exon 5a in human astrocyte. Conclusion:Evident differences in splicing were observed at the site of exon 5a between glioma cell lines and normal human astrocytes. The difference in the alternatively splicing pattern at exon 5a may be attributed to the decreased activity of ADAR2.

Cloning and expression analysis of multiple proteins encoding P gene of Newcastle disease virus.

Viral gene oncotherapy is emerging as a biotherapeutic cancer treatment modality based on targeted killing of cancer cells by viral genes. Newcastle disease virus (NDV) has the property to cause selective oncolysis of tumor cells sparing normal cells. NDV has a single stranded negative sense RNA genome, which is 15,186 nucleotide long and consists of six genes, which codes for eight proteins. NDV like other paramyxoviruses has the ability to generate multiple proteins from the P gene. P protein is encoded by an unedited transcript of the P gene, whereas the V and W protein are the results of RNA editing event in which one and two G residues are inserted at a conserved editing site within the P gene mRNA resulting in V and W transcripts, respectively. Although NDV is known to cause oncolysis by triggering apoptosis, the role of different viral proteins in selective oncolysis is still unclear. P gene edited products are known for its anti-apoptotic property in homologous host. In the present study, NDV P gene and its RNA edited products were amplified, cloned, sequenced and in vitro expression was done in HeLa cells. Further constructs were assayed for their apoptosis inducing ability in HeLa cells. Preliminary study suggested that P, V and W proteins are not apoptotic to HeLa cells.

Bioinformatics Approaches for the Identification and Annotation of RNA Editing Sites

Post-transcriptional nucleotide sequence modification of transcripts by RNA editing is an important molecular mechanism in the regulation of protein function and is associated with a variety of human disease phenotypes. Identification of RNA editing sites is the basic step for studying RNA editing. Databases and bioinformatics resources are used to annotate and evaluate as well as identify RNA editing sites. No method is free of limitations. Correctly establishing an analytic pipeline and strategic application of both experimental and bioinformatics methods constitute the first step in investigating RNA editing. This review summarizes modern bioinformatics approaches and related resources for RNA editing research.

Secuencia parcial del genoma del maxicírculo de Leishmania braziliensis, comparación con otros tripanosomátidos / Maxicircle genome partial sequence of Leishmania braziliensis: assembling and comparison with other trypanosomatids / Seqüência do genoma parcial do maxicirculo de Leishmania braziliensis: montagem e comparação com outros tripanossomatídeos

Objetivo. Con el fin de aportar nueva información relevante para estudios de genotipificación y filogenética del género Leishmania, en este estudio se determinó y comparó la secuencia del maxicírculo de Leishmania braziliensis, cepa MHOM-BR-75-M2904, con las secuencias del maxicírculo reportadas para otras especies de tripanosomátidos. Materiales y métodos. La búsqueda de las secuencias del maxicírculo se realizó en las bases de datos de secuencias no ensambladas del GeneDB versión 2.1, así como en el GenBank, utilizando los genes ND8 y RPS12 de L. braziliensis como sonda inicial. Estas secuencias se ensamblaron y se compararon con sus homólogas en otros tripanosomátidos mediante el uso de herramientas bioinformáticas como LALIGN y ClustalW2. El tamaño total del maxicírculo se determinó mediante ensayos de Southern blot. Resultados. Se ensamblaron dos fragmentos del maxicírculo de L. braziliensis de 6535 y 4257 nucleótidos, cuyos genes presentaron elevada sintenia y similitud en sus secuencias con los previamente reportados en otras especies de Leishmania. Similitud que se extiende incluso a los patrones de edición de estas moléculas. Conclusiones. A pesar de ser L. braziliensis la especie más divergente del género Leishmania en cuanto a su genoma nuclear, el marxicírculo presenta una elevada conservación. Resultado que sugiere que el patrón de edición presente en las diferentes especies de Leishmania hasta ahora estudiadas se conserva también en el subgénero Viannia, lo que indica una elevada conservación en la edición de los transcritos mitocondriales a nivel de género.

Objective. With the aim to provide new insights for genotyping and phylogenetic studies of the Leishmania genus, in this study the sequence of the maxicircle in Leishmania braziliensis, strain MHOM-BR-75-M2904, was determined and compared with those reported in other trypanosomatids species. Materials and methods. Searches for maxicircle sequences were performed in the unassembled sequences of GeneDB database version 2.1, as well as in the GenBank, using the ND8 and RPS12 genes of L. braziliensis as the initial probes. These sequences were assembled and compared with the homologous sequences of trypanosomatids using the bioinformatics tools LALIGN and ClustalW2. The size of maxicircle was determined by Southern blot assays. Results. Two maxicircle fragments of 6535 and 4257 nucleotides were assembled. The sequences of these genes showed high synteny and similarity with the sequences in other Leishmania species. This similarity even was extended to the editing patterns of these molecules. Conclusions. Although L. braziliensis is the most divergent species of the Leishmania genus in their nuclear genome, the maxicicircle has a high conservation. This result suggests that the pattern of editing present in the different Leishmania species studied has been conserved also in the subgenus Viannia. These results indicate a high conservation in the editing of mitochondrial transcripts at the genus level.

Objetivo. Com o fim de contribuir nova informação relevante para estudos de genotipagem e filogenética do género Leishmania, neste estudo determinou-se a sequência do maxicirculo de Leishmania braziliensis, cepa MHOM-BR-75-M2904, comparandosecom as seqüências do maxicirculo reportadas para outras espécies de tripanossomatídeos. Materiais e Métodos. A busca das seqüências do maxicirculo foi realizada nas bases de dados para seqüências não alinhadas no GeneDB versão 2.1, assim como no GeneBank, utilizando o genes ND8 e RPS12 de L. braziliensis como sonda inicial. Essas seqüências foram alinhadas e comparadas com as suas homologas em outros tripanossomatídeos, mediante o uso de ferramentas bioinformáticas como L-ALIGN e ClustalW2. O tamanho total do maxicirculo foi determinado mediante ensaios de Southern blot. Resultados. Foram alinhados dois fragmentos do maxicirculo de L. braziliensis de 6535 e 4257 nucleotídeos, cujos genes apresentaram elevada sintenia e similaridade nas suas seqüências com os genes previamente reportados nas outras espécies de Leishmania. A similaridade vista estende-se, inclusive, aos padrões de edição para estas moléculas. Conclusões. Apesar de L. braziliensis ser a espécie mais divergente do gênero Leishmania, no que se refere ao seu genoma nuclear, o maxicirculo apresenta uma alta conservação. Esse resultado sugere que o padrão de edição apresentado nas espécies de Leishmania até agora estudadas, é conservado também no subgênero Viannia, o que indica uma alta conservação na edição dos transcritos mitocôndriais ao nível de gênero.

The central role of RNA in the genetic programming of complex organisms

Notwithstanding lineage-specific variations, the number and type of protein-coding genes remain relatively static across the animal kingdom. By contrast there has been a massive expansion in the extent of genomic non-proteincoding sequences with increasing developmental complexity. These non-coding sequences are, in fact, transcribed in a regulated manner to produce large numbers of large and small non-protein-coding RNAs that control gene expression at many levels including chromatin architecture, post-transcriptional processing and translation. Moreover, many RNAs are edited, especially in the nervous system, which may be the basis of epigenome-environment interactions and the function of the brain.

Apesar das variações linhagem-específicas, o número e tipo de genes codificadores de proteínas permanecem relativamente estáticos no reino animal. Em contraste, houve uma expansão maciça da quantidade de sequências genômicas não-codificadoras de proteínas com o aumento da complexidade do desenvolvimento. Essas sequências não codificadoras são, de fato, transcritas de maneira regulada para produzirem numerosos RNAs grandes e pequenos não-codificadores de proteínas que controlam a expressão de genes em vários níveis, incluindo a arquitetura da cromatina, o processamento pós-transcricional e a tradução. Além disso, muitos RNAs são editados, especialmente no sistema nervoso, o que pode ser a base de interações epigenoma-ambiente e a função do cérebro.

Effects of phenylacetate on proliferation and RNA editing deaminase expression of human pancreatic carcinoma BXPC-3 cell lines / 中华普通外科杂志

Objective To evaluate the differentiation-inducing effect of phenylacetate on pancreatic carcinoma cells and underlying mechanism of RNA editing deaminase in cell proliferation and differentiation. Methods The effect of phenylacetate on cell proliferation and cell cycle were investigated in cultured pancreatic carcinoma BXPC-3 cell lines by methylthiazoletetrazolium( MTT) assay, and flow cytometry. The effect of phenylacetate on the expression of RNA editing deaminase (ADAR2 mRNA) in BXPC-3 cells and fresh pancreatic carcinoma specimen was evaluated by RT-PCR. Results ADAR1 mRNA expression was positive in human pancreatic carcinoma tissues and BXPC-3 cell lines. After application of 1.0 and 2.0 mmol/L phenylacetate for 24 h and 72 h, BXPC-3 cell growth inhibition rate increased, G0/G1 phase cells decreased, S phase cells increased, ADAR2 mRNA expression decreased ( P < 0.01 ). Conclusion ADAR2 mRNA played a vital role of regulation in the process of pancreatic carcinoma cells growth and differentiation. Phenylacetate could regulate the proliferation and differentiation of pancreatic carcinoma cells through the regulation of ADAR2 mRNA expression.

Relationship between potassium channel and ADAR1 in Hep-2 cell line / 中国耳鼻咽喉头颈外科

OBJECTIVE To study the relationship between potassium channel and ADAR1 in Hep-2 cell line. METHODS The potassium current was recorded by the whole-cell recording technique of perforated membrane clamp. Using semi-quantitative reverse transcription polymerase chain reaction (RT-PCR) , the expressions of ADAR1 mRNA in the Hep-2cell line were detected. RESULTS The similar membrane current was observed when cells were held at -40 mV and test potentials ranged from -80 mV to +80 mV. The current exhibited properties of voltage-dependent, outward rectification. It exhibited complete activation after alatency of 25ms and no or little inactivation over the 800ms voltage pulse. It could be blocked by potassium channel blockers TEA. The relative intensities of ADAR1 mRNA of t he Hep-2 cell line were different before and after its potassium channel was blocked. CONCLUSION Delayed rectifier potassium channel exist in human laryngeal carcinoma cell line Hep-2.The potassium channel is voltage-dependent. There is a correlation between the potassium channel and ADAR1 mRNA in Hep-2 cell line.

mRNA Expression and RNA Editing (2451 C-to-U) of IL-12 Receptor beta2 in Adult Atopic Patients

Interleukin (IL)-12 activates T helper (Th) 1 cells to produce interferon (IFN)-gamma which inhibits atopic inflammation. IL-12 acts through interaction with its receptor, especially beta2 subunit. In several studies, the low production of IFN-gamma in peripheral mononuclear cells of atopic patients on response to IL-12 stimulation has been reported. Therefore we investigated the IL-12 receptor beta2 (IL-12R beta2) mRNA expression and RNA editing, nucleotide 2451 C-to-U conversion, to find the cause of low responsiveness to IL-12 in atopy. Quantitative real time PCR for mRNA expression and sequence analysis for RNA editing were performed in 80 atopic patients and 54 healthy controls. The expression of IL-12R beta2 mRNA was significantly lower in atopic patients than healthy controls (p<0.05). In sequence analysis, RNA editing on nucleotide 2451 was not found from either atopic patients or healthy controls. In additional evaluation, there was no relationship between expression of IL-12R beta2 mRNA and serum total IgE or blood eosinophil count. Reduced IL-12R beta2 mRNA expression in atopic patients indicate the reduced capacity to respond to IL-12 which induce IFN-gamma production and this may contribute to Th2-skewed immune response in atopy.