NDUFB1 Polyclonal Antibody

Total Page：16

File Type：pdf, Size：1020Kb

PRODUCT DATA SHEET Bioworld Technology,Inc. NDUFB1 polyclonal antibody Catalog: BS61217 Host: Rabbit Reactivity: Human,Mouse,Rat BackGround: munogen and the purity is > 95% (by SDS-PAGE). NDUFB1 (NADH dehydrogenase [ubiquinone] 1 beta Applications: subcomplex subunit 1), also known as CI-MNLL (com- WB: 1:500~1:1000 plex I-MNLL), CI-SGDH or NADH-ubiquinone oxi- Storage&Stability: doreductase MNLL subunit, is a 58 amino acid sin- Store at 4°C short term. Aliquot and store at -20°C long gle-pass membrane protein that localizes to the matrix term. Avoid freeze-thaw cycles. side of the mitochondrial membrane. A member of the Specificity: complex I NDUFB1 subunit family, NDUFB1 is encoded NDUFB1 polyclonal antibody detects endogenous levels by a gene that maps to human chromosome 14q32.12. of NDUFB1 protein. Chromosome 14 houses over 700 genes and comprises DATA: nearly 3.5% of the human genome. Chromosome 14 en- codes the presinilin 1 (PSEN1) gene, which is one of the three key genes associated with the development of Alz- heimer's disease (AD). The SERPINA1 gene is also lo- cated on chromosome 14 and, when defective, leads to the genetic disorder α1-antitrypsin deficiency, which is characterized by severe lung complications and liver dysfunction. Western blot (WB) analysis of NDUFB1 polyclonal antibody at 1:500 Product: dilution Lane1:HEK293T whole cell lysate Rabbit IgG, 1mg/ml in PBS with 0.02% sodium azide, Lane2:RAW264.7 whole cell lysate Lane3:H9C2 whole cell lysate 50% glycerol, pH7.2 Lane4:Hela whole cell lysate Molecular Weight: Note: ~ 12 kDa For research use only, not for use in diagnostic procedure. Swiss-Prot: O75438 Purification&Purity: The antibody was affinity-purified from rabbit antiserum by affinity-chromatography using epitope-specific im- Bioworld Technology, Inc. Bioworld technology, co. Ltd. Add： 1660 South Highway 100, Suite 500 St. Louis Park, Add： No 9, weidi road Qixia District Nanjing, 210046, MN 55416,USA. P. R. China. Email: [email protected] Email: [email protected] Tel: 6123263284 Tel: 0086-025-68037686 Fax: 6122933841 Fax: 0086-025-68035151 .

Copy Link

Recommended publications

The Genomic Structure and Expression of MJD, the Machado-Joseph Disease Gene
J Hum Genet (2001) 46:413–422 © Jpn Soc Hum Genet and Springer-Verlag 2001 ORIGINAL ARTICLE Yaeko Ichikawa · Jun Goto · Masahira Hattori Atsushi Toyoda · Kazuo Ishii · Seon-Yong Jeong Hideji Hashida · Naoki Masuda · Katsuhisa Ogata Fumio Kasai · Momoki Hirai · Patrícia Maciel Guy A. Rouleau · Yoshiyuki Sakaki · Ichiro Kanazawa The genomic structure and expression of MJD, the Machado-Joseph disease gene Received: March 7, 2001 / Accepted: April 17, 2001 Abstract Machado-Joseph disease (MJD) is an autosomal relative to the MJD gene in B445M7 indicate that there are dominant neurodegenerative disorder that is clinically char- three alternative splicing sites and eight polyadenylation acterized by cerebellar ataxia and various associated symp- signals in MJD that are used to generate the differently toms. The disease is caused by an unstable expansion of the sized transcripts. CAG repeat in the MJD gene. This gene is mapped to chromosome 14q32.1. To determine its genomic structure, Key words Machado-Joseph disease (MJD) · 14q32.1 · we constructed a contig composed of six cosmid clones and CAG repeat · Genome structure · Alternative splicing · eight bacterial artiﬁcial chromosome (BAC) clones. It spans mRNA expression approximately 300kb and includes MJD. We also deter- mined the complete sequence (175,330bp) of B445M7, a human BAC clone that contains MJD. The MJD gene was found to span 48,240bp and to contain 11 exons. Northern Introduction blot analysis showed that MJD mRNA is ubiquitously expressed in human tissues, and in at least four different Machado-Joseph disease (MJD) is an autosomal dominant sizes; namely, 1.4, 1.8, 4.5, and 7.5kb.
[Show full text]
Low Abundance of the Matrix Arm of Complex I in Mitochondria Predicts Longevity in Mice
ARTICLE Received 24 Jan 2014 | Accepted 9 Apr 2014 | Published 12 May 2014 DOI: 10.1038/ncomms4837 OPEN Low abundance of the matrix arm of complex I in mitochondria predicts longevity in mice Satomi Miwa1, Howsun Jow2, Karen Baty3, Amy Johnson1, Rafal Czapiewski1, Gabriele Saretzki1, Achim Treumann3 & Thomas von Zglinicki1 Mitochondrial function is an important determinant of the ageing process; however, the mitochondrial properties that enable longevity are not well understood. Here we show that optimal assembly of mitochondrial complex I predicts longevity in mice. Using an unbiased high-coverage high-conﬁdence approach, we demonstrate that electron transport chain proteins, especially the matrix arm subunits of complex I, are decreased in young long-living mice, which is associated with improved complex I assembly, higher complex I-linked state 3 oxygen consumption rates and decreased superoxide production, whereas the opposite is seen in old mice. Disruption of complex I assembly reduces oxidative metabolism with concomitant increase in mitochondrial superoxide production. This is rescued by knockdown of the mitochondrial chaperone, prohibitin. Disrupted complex I assembly causes premature senescence in primary cells. We propose that lower abundance of free catalytic complex I components supports complex I assembly, efﬁcacy of substrate utilization and minimal ROS production, enabling enhanced longevity. 1 Institute for Ageing and Health, Newcastle University, Newcastle upon Tyne NE4 5PL, UK. 2 Centre for Integrated Systems Biology of Ageing and Nutrition, Newcastle University, Newcastle upon Tyne NE4 5PL, UK. 3 Newcastle University Protein and Proteome Analysis, Devonshire Building, Devonshire Terrace, Newcastle upon Tyne NE1 7RU, UK. Correspondence and requests for materials should be addressed to T.v.Z.
[Show full text]
Gene Expression Profiling Analysis of Lung Adenocarcinoma
Brazilian Journal of Medical and Biological Research (2016) 49(3): e4861, http://dx.doi.org/10.1590/1414-431X20154861 ISSN 1414-431X 1/11 Gene expression profiling analysis of lung adenocarcinoma H. Xu1,2,J.Ma1,J.Wu1, L. Chen1,F.Sun1,C.Qu1, D. Zheng1 and S. Xu1 1Department of Thoracic Surgery, Harbin Medical University Cancer Hospital, Harbin, Heilongjiang, China 2Laboratory of Medical Genetics, Harbin Medical University, Harbin, Heilongjiang, China Abstract The present study screened potential genes related to lung adenocarcinoma, with the aim of further understanding disease pathogenesis. The GSE2514 dataset including 20 lung adenocarcinoma and 19 adjacent normal tissue samples from 10 patients with lung adenocarcinoma aged 45-73 years was downloaded from Gene Expression Omnibus. Differentially expressed genes (DEGs) between the two groups were screened using the t-test. Potential gene functions were predicted using functional and pathway enrichment analysis, and protein-protein interaction (PPI) networks obtained from the STRING database were constructed with Cytoscape. Module analysis of PPI networks was performed through MCODE in Cytoscape. In total, 535 upregulated and 465 downregulated DEGs were identified. These included ATP5D, UQCRC2, UQCR11 and genes encoding nicotinamide adenine dinucleotide (NADH), which are mainly associated with mitochondrial ATP synthesis coupled electron transport, and which were enriched in the oxidative phosphorylation pathway. Other DEGs were associated with DNA replication (PRIM1, MCM3, and RNASEH2A), cell surface receptor-linked signal transduction and the enzyme-linked receptor protein signaling pathway (MAPK1, STAT3, RAF1, and JAK1), and regulation of the cytoskeleton and phosphatidylinositol signaling system (PIP5K1B, PIP5K1C, and PIP4K2B). Our findings suggest that DEGs encoding subunits of NADH, PRIM1, MCM3, MAPK1, STAT3, RAF1, and JAK1 might be associated with the development of lung adenocarcinoma.
[Show full text]
Analyzing the Function of TRAP1 in Models of Parkinson's Disease
Analyzing the function of TRAP1 in models of Parkinson’s disease Von der Fakultät für Mathematik, Informatik und Naturwissenschaften der RWTH Aachen University zur Erlangung des akademischen Grades einer Doktorin der Naturwissenschaften genehmigte Dissertation vorgelegt von Li Zhang aus Changchun, Jilin (China) Berichter: Universitätsprofessor Dr. med. Jörg B. Schulz Universitätsprofessor Dr. rer. nat. Marc Spehr Tag der mündlichen Prüfung: 29.01.2016 Diese Dissertation ist auf den Internetseiten der Universitätsbibliothek online verfügbar. Eidesstattliche Versicherung ___________________________Zhang, Li ___________________________ Name, Vorname Matrikelnummer (freiwillige Angabe) Ich versichere hiermit an Eides Statt, dass ich die vorliegende Arbeit/Bachelorarbeit/ Masterarbeit* mit dem Titel __________________________________________________________________________Analyzing the function of TRAP1 in models of Parkinson’s disease __________________________________________________________________________Uebersetzung: Analyse der TRAP1-Funktion in Modellen fuer Morbus Parkinson __________________________________________________________________________ selbständig und ohne unzulässige fremde Hilfe erbracht habe. Ich habe keine anderen als die angegebenen Quellen und Hilfsmittel benutzt. Für den Fall, dass die Arbeit zusätzlich auf einem Datenträger eingereicht wird, erkläre ich, dass die schriftliche und die elektronische Form vollständig übereinstimmen. Die Arbeit hat in gleicher oder ähnlicher Form noch keiner Prüfungsbehörde vorgelegen.
[Show full text]
Electron Transport Chain Activity Is a Predictor and Target for Venetoclax Sensitivity in Multiple Myeloma
ARTICLE https://doi.org/10.1038/s41467-020-15051-z OPEN Electron transport chain activity is a predictor and target for venetoclax sensitivity in multiple myeloma Richa Bajpai1,7, Aditi Sharma 1,7, Abhinav Achreja2,3, Claudia L. Edgar1, Changyong Wei1, Arusha A. Siddiqa1, Vikas A. Gupta1, Shannon M. Matulis1, Samuel K. McBrayer 4, Anjali Mittal3,5, Manali Rupji 6, Benjamin G. Barwick 1, Sagar Lonial1, Ajay K. Nooka 1, Lawrence H. Boise 1, Deepak Nagrath2,3,5 & ✉ Mala Shanmugam 1 1234567890():,; The BCL-2 antagonist venetoclax is highly effective in multiple myeloma (MM) patients exhibiting the 11;14 translocation, the mechanistic basis of which is unknown. In evaluating cellular energetics and metabolism of t(11;14) and non-t(11;14) MM, we determine that venetoclax-sensitive myeloma has reduced mitochondrial respiration. Consistent with this, low electron transport chain (ETC) Complex I and Complex II activities correlate with venetoclax sensitivity. Inhibition of Complex I, using IACS-010759, an orally bioavailable Complex I inhibitor in clinical trials, as well as succinate ubiquinone reductase (SQR) activity of Complex II, using thenoyltriﬂuoroacetone (TTFA) or introduction of SDHC R72C mutant, independently sensitize resistant MM to venetoclax. We demonstrate that ETC inhibition increases BCL-2 dependence and the ‘primed’ state via the ATF4-BIM/NOXA axis. Further, SQR activity correlates with venetoclax sensitivity in patient samples irrespective of t(11;14) status. Use of SQR activity in a functional-biomarker informed manner may better select for MM patients responsive to venetoclax therapy. 1 Department of Hematology and Medical Oncology, Winship Cancer Institute, School of Medicine, Emory University, Atlanta, GA, USA.
[Show full text]
Bayesian Hidden Markov Tree Models for Clustering Genes with Shared Evolutionary History
Submitted to the Annals of Applied Statistics arXiv: arXiv:0000.0000 BAYESIAN HIDDEN MARKOV TREE MODELS FOR CLUSTERING GENES WITH SHARED EVOLUTIONARY HISTORY By Yang Liy,{,∗, Shaoyang Ningy,∗, Sarah E. Calvoz,x,{, Vamsi K. Moothak,z,x,{ and Jun S. Liuy Harvard Universityy, Broad Institutez, Harvard Medical Schoolx, Massachusetts General Hospital{, and Howard Hughes Medical Institutek Determination of functions for poorly characterized genes is cru- cial for understanding biological processes and studying human dis- eases. Functionally associated genes are often gained and lost together through evolution. Therefore identifying co-evolution of genes can predict functional gene-gene associations. We describe here the full statistical model and computational strategies underlying the orig- inal algorithm CLustering by Inferred Models of Evolution (CLIME 1.0) recently reported by us [Li et al., 2014]. CLIME 1.0 employs a mixture of tree-structured hidden Markov models for gene evolution process, and a Bayesian model-based clustering algorithm to detect gene modules with shared evolutionary histories (termed evolutionary conserved modules, or ECMs). A Dirichlet process prior was adopted for estimating the number of gene clusters and a Gibbs sampler was developed for posterior sampling. We further developed an extended version, CLIME 1.1, to incorporate the uncertainty on the evolution- ary tree structure. By simulation studies and benchmarks on real data sets, we show that CLIME 1.0 and CLIME 1.1 outperform traditional methods that use simple metrics (e.g., the Hamming distance or Pear- son correlation) to measure co-evolution between pairs of genes. 1. Introduction. The human genome encodes more than 20,000 protein- coding genes, of which a large fraction do not have annotated function to date [Galperin and Koonin, 2010].
[Show full text]
Novel Myocardial Markers GADD45G and NDUFS5 Identified by RNA
Iwahana et al. BMC Cardiovascular Disorders (2020) 20:116 https://doi.org/10.1186/s12872-020-01396-2 RESEARCH ARTICLE Open Access Novel myocardial markers GADD45G and NDUFS5 identified by RNA-sequencing predicts left ventricular reverse remodeling in advanced non-ischemic heart failure: a retrospective cohort study Togo Iwahana1, Sho Okada1* , Masato Kanda1, Motohiko Oshima2, Atsushi Iwama2, Goro Matsumiya3 and Yoshio Kobayashi1 Abstract Background: Left ventricular reverse remodeling (LVRR) has been detected in non-ischemic dilated cardiomyopathy (NIDCM) patients following optimal treatment. However, its prediction with only conventional modalities is often difficult. This study sought to examine whether RNA sequencing (RNA-seq) of myocardium tissue samples could predict LVRR in NIDCM. Methods: A total of 17 advanced NIDCM patients with left ventricular ejection fraction (LVEF) below 30% who underwent cardiac biopsy from Left ventricle (LV) were prospectively recruited. They received optimal treatment and followed with echocardiogram every 6 months. Based on LVRR status after 12 months of treatment, patients were divided into the reverse remodeling (RR) or non-RR group. Tissue samples were analyzed by RNA-seq, and a functional analysis of differentially expressed genes was carried out. Results: There were eight and nine patients in the RR and non-RR groups, respectively. No difference was found in age, sex, disease duration, LV end-diastolic diameter, and LVEF between the two groups. There were 155 genes that were differentially expressed between the two groups. Nicotinamide adenine dinucleotide ubiquinone oxidoreductase subunit (NDUF)S5 and Growth arrest and DNA-damage-inducible protein (GADD)45G, along with several genes related to the mitochondrial respiratory chain and ribosome, were significantly downregulated in the RR as compared to the non-RR group.
[Show full text]
Mitochondrial Structure and Bioenergetics in Normal and Disease Conditions
International Journal of Molecular Sciences Review Mitochondrial Structure and Bioenergetics in Normal and Disease Conditions Margherita Protasoni 1 and Massimo Zeviani 1,2,* 1 Mitochondrial Biology Unit, The MRC and University of Cambridge, Cambridge CB2 0XY, UK; [email protected] 2 Department of Neurosciences, University of Padova, 35128 Padova, Italy * Correspondence: [email protected] Abstract: Mitochondria are ubiquitous intracellular organelles found in almost all eukaryotes and involved in various aspects of cellular life, with a primary role in energy production. The interest in this organelle has grown stronger with the discovery of their link to various pathologies, including cancer, aging and neurodegenerative diseases. Indeed, dysfunctional mitochondria cannot provide the required energy to tissues with a high-energy demand, such as heart, brain and muscles, leading to a large spectrum of clinical phenotypes. Mitochondrial defects are at the origin of a group of clinically heterogeneous pathologies, called mitochondrial diseases, with an incidence of 1 in 5000 live births. Primary mitochondrial diseases are associated with genetic mutations both in nuclear and mitochondrial DNA (mtDNA), affecting genes involved in every aspect of the organelle function. As a consequence, it is difficult to find a common cause for mitochondrial diseases and, subsequently, to offer a precise clinical definition of the pathology. Moreover, the complexity of this condition makes it challenging to identify possible therapies or drug targets. Keywords: ATP production; biogenesis of the respiratory chain; mitochondrial disease; mi-tochondrial electrochemical gradient; mitochondrial potential; mitochondrial proton pumping; mitochondrial respiratory chain; oxidative phosphorylation; respiratory complex; respiratory supercomplex Citation: Protasoni, M.; Zeviani, M.
[Show full text]
Coexpression Networks Based on Natural Variation in Human Gene Expression at Baseline and Under Stress
University of Pennsylvania ScholarlyCommons Publicly Accessible Penn Dissertations Fall 2010 Coexpression Networks Based on Natural Variation in Human Gene Expression at Baseline and Under Stress Renuka Nayak University of Pennsylvania, [email protected] Follow this and additional works at: https://repository.upenn.edu/edissertations Part of the Computational Biology Commons, and the Genomics Commons Recommended Citation Nayak, Renuka, "Coexpression Networks Based on Natural Variation in Human Gene Expression at Baseline and Under Stress" (2010). Publicly Accessible Penn Dissertations. 1559. https://repository.upenn.edu/edissertations/1559 This paper is posted at ScholarlyCommons. https://repository.upenn.edu/edissertations/1559 For more information, please contact [email protected]. Coexpression Networks Based on Natural Variation in Human Gene Expression at Baseline and Under Stress Abstract Genes interact in networks to orchestrate cellular processes. Here, we used coexpression networks based on natural variation in gene expression to study the functions and interactions of human genes. We asked how these networks change in response to stress. First, we studied human coexpression networks at baseline. We constructed networks by identifying correlations in expression levels of 8.9 million gene pairs in immortalized B cells from 295 individuals comprising three independent samples. The resulting networks allowed us to infer interactions between biological processes. We used the network to predict the functions of poorly-characterized human genes, and provided some experimental support. Examining genes implicated in disease, we found that IFIH1, a diabetes susceptibility gene, interacts with YES1, which affects glucose transport. Genes predisposing to the same diseases are clustered non-randomly in the network, suggesting that the network may be used to identify candidate genes that influence disease susceptibility.
[Show full text]
Accessory Subunits Are Integral for Assembly and Function of Human Mitochondrial Complex I
Accessory subunits are integral for assembly and function of human mitochondrial complex I David A. Stroud1*, Elliot E. Surgenor1, Luke E. Formosa1,2, Boris Reljic2†, Ann E. Frazier3,4, Marris G. Dibley1, Laura D. Osellame1, Tegan Stait3, Traude H. Beilharz1, David R. Thorburn3-5, Agus Salim6, Michael T. Ryan1* 1Department of Biochemistry and Molecular Biology, Monash Biomedicine Discovery Institute, Monash University, 3800, Melbourne, Australia. 2Department of Biochemistry and Genetics, La Trobe Institute for Molecular Science, La Trobe University 3086, Melbourne, Australia. 3Murdoch Childrens Research Institute, Royal Children’s Hospital, Melbourne 3052, Australia 4Department of Pediatrics, University of Melbourne, Melbourne 3052, Australia. 5Victorian Clinical Genetics Services, Royal Children’s Hospital 3052, Melbourne, Australia. 6Department of Mathematics and Statistics, La Trobe University 3086, Melbourne Australia. *Correspondence to: [email protected] and [email protected] †Current address: Walter and Eliza Hall Institute of Medical Research, Parkville, Melbourne, Victoria 3052, Australia Complex I (NADH:ubiquinone oxidoreductase) is the first enzyme of the mitochondrial respiratory chain (RC) and is composed of 44 different subunits in humans, making it one of the largest known multi-subunit membrane protein complexes1. Complex I exists in supercomplex forms with RC complexes III and IV, which are together required for the generation of a transmembrane proton gradient used for the synthesis of ATP2. Complex I is also a major source of damaging reactive oxygen species and its dysfunction is associated with mitochondrial disease, Parkinson’s disease and aging3-5. Bacterial and human complex I share 14 core subunits essential for enzymatic function, however the role and requirement of the remaining 31 human accessory subunits is unclear1,6.
[Show full text]
Reveals of Candidate Active Ingredients in Justicia and Its Anti-Thrombotic Action of Mechanism Based on Network Pharmacology Ap
www.nature.com/scientificreports OPEN Reveals of candidate active ingredients in Justicia and its anti‑thrombotic action of mechanism based on network pharmacology approach and experimental validation Zongchao Hong1,5, Ting Zhang2,5, Ying Zhang1, Zhoutao Xie1, Yi Lu1, Yunfeng Yao1, Yanfang Yang1,3,4*, Hezhen Wu1,3,4* & Bo Liu1,3* Thrombotic diseases seriously threaten human life. Justicia, as a common Chinese medicine, is usually used for anti‑infammatory treatment, and further studies have found that it has an inhibitory efect on platelet aggregation. Therefore, it can be inferred that Justicia can be used as a therapeutic drug for thrombosis. This work aims to reveal the pharmacological mechanism of the anti‑thrombotic efect of Justicia through network pharmacology combined with wet experimental verifcation. During the analysis, 461 compound targets were predicted from various databases and 881 thrombus‑related targets were collected. Then, herb‑compound‑target network and protein–protein interaction network of disease and prediction targets were constructed and cluster analysis was applied to further explore the connection between the targets. In addition, Gene Ontology (GO) and pathway (KEGG) enrichment were used to further determine the association between target proteins and diseases. Finally, the expression of hub target proteins of the core component and the anti‑thrombotic efect of Justicia’s core compounds were verifed by experiments. In conclusion, the core bioactive components, especially justicidin D, can reduce thrombosis by regulating F2, MMP9, CXCL12, MET, RAC1, PDE5A, and ABCB1. The combination of network pharmacology and the experimental research strategies proposed in this paper provides a comprehensive method for systematically exploring the therapeutic mechanism of multi‑component medicine.
[Show full text]
Autocrine IFN Signaling Inducing Profibrotic Fibroblast Responses by a Synthetic TLR3 Ligand Mitigates
Downloaded from http://www.jimmunol.org/ by guest on September 28, 2021 Inducing is online at: average * The Journal of Immunology published online 16 August 2013 from submission to initial decision 4 weeks from acceptance to publication http://www.jimmunol.org/content/early/2013/08/16/jimmun ol.1300376 A Synthetic TLR3 Ligand Mitigates Profibrotic Fibroblast Responses by Autocrine IFN Signaling Feng Fang, Kohtaro Ooka, Xiaoyong Sun, Ruchi Shah, Swati Bhattacharyya, Jun Wei and John Varga J Immunol Submit online. Every submission reviewed by practicing scientists ? is published twice each month by http://jimmunol.org/subscription Submit copyright permission requests at: http://www.aai.org/About/Publications/JI/copyright.html Receive free email-alerts when new articles cite this article. Sign up at: http://jimmunol.org/alerts http://www.jimmunol.org/content/suppl/2013/08/20/jimmunol.130037 6.DC1 Information about subscribing to The JI No Triage! Fast Publication! Rapid Reviews! 30 days* Why • • • Material Permissions Email Alerts Subscription Supplementary The Journal of Immunology The American Association of Immunologists, Inc., 1451 Rockville Pike, Suite 650, Rockville, MD 20852 Copyright © 2013 by The American Association of Immunologists, Inc. All rights reserved. Print ISSN: 0022-1767 Online ISSN: 1550-6606. This information is current as of September 28, 2021. Published August 16, 2013, doi:10.4049/jimmunol.1300376 The Journal of Immunology A Synthetic TLR3 Ligand Mitigates Proﬁbrotic Fibroblast Responses by Inducing Autocrine IFN Signaling Feng Fang,* Kohtaro Ooka,* Xiaoyong Sun,† Ruchi Shah,* Swati Bhattacharyya,* Jun Wei,* and John Varga* Activation of TLR3 by exogenous microbial ligands or endogenous injury-associated ligands leads to production of type I IFN.
[Show full text]