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Early-Onset Alzheimer's Disease
Wikipedia
This loss of brain volume affects ones ability to live and function properly, ultimately being fatal. [5] Beta-amyloid is a small piece of a larger protein called the amyloid precursor protein (APP). Once APP is activated, it is cut into smaller sections of other proteins. ... Alpha-secretase cleavage of APP, which precludes the production of Aβ, is the most common processing event for APP. 21 allelic mutations have been discovered in the APP gene. These guarantee onset of early-onset familial Alzheimer disease and all occur in the region of the APP gene that encodes the Aβ domain. ... "A pathogenic mutation for probable Alzheimer's disease in the APP gene at the N-terminus of beta-amyloid". ... PMID 16817891 . ^ Chow VW, Mattson MP, Wong PC, Gleichmann M (March 2010). "An overview of APP processing enzymes and products" .
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Microvasculature Remodeling
Wikipedia
What makes vessels grow with exercise training? J App Physiol 97: 1119–28, 2004. This cardiovascular system article is a stub .
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Pancreatic Neuroendocrine Tumor
Wikipedia
PanNETs are a type of neuroendocrine tumor , representing about one third of gastroenteropancreatic neuroendocrine tumors (GEP-NETs). Many PanNETs are benign , while some are malignant . ... However, morphological imaging alone is not sufficient for a definite diagnosis [14] [16] On biopsy , immunohistochemistry is generally positive for chromogranin and synaptophysin . [17] Genetic testing thereof typically shows altered MEN1 and DAXX / ATRX . [17] Staging [ edit ] The 2010 WHO classification of tumors of the digestive system grades all the neuroendocrine tumors into three categories, based on their degree of cellular differentiation (from well-differentiated "NET G1" through to poorly-differentiated "NET G3"). ... Combinations of several medicines have been used, such as doxorubicin with streptozocin and fluorouracil (5-FU) [12] and capecitabine with temozolomide. [ citation needed ] Although marginally effective in well-differentiated PETs, cisplatin with etoposide has some activity in poorly differentiated neuroendocrine cancers (PDNECs), [12] particularly if the PDNEC has an extremely high Ki-67 score of over 50%. [8] : 30 Several targeted therapy agents have been approved in PanNETs by the FDA based on improved progression-free survival (PFS): everolimus (Afinitor) is labeled for treatment of progressive neuroendocrine tumors of pancreatic origin in patients with unresectable, locally advanced or metastatic disease. [20] [21] The safety and effectiveness of everolimus in carcinoid tumors have not been established. [20] [21] sunitinib (Sutent) is labeled for treatment of progressive, well-differentiated pancreatic neuroendocrine tumors in patients with unresectable locally advanced or metastatic disease. [22] [23] Sutent also has approval from the European Commission for the treatment of 'unresectable or metastatic, well-differentiated pancreatic neuroendocrine tumors with disease progression in adults'. [24] A phase III study of sunitinib treatment in well differentiated pNET that had worsened within the past 12 months (either advanced or metastatic disease) showed that sunitinib treatment improved progression-free survival (11.4 months vs. 5.5 months), overall survival , and the objective response rate (9.3% vs. 0.0%) when compared with placebo. [25] Genetics [ edit ] Pancreatic neuroendocrine tumors may arise in the context of multiple endocrine neoplasia type 1 , Von Hippel–Lindau disease , neurofibromatosis type 1 (NF-1) or tuberose sclerosis (TSC) [26] [27] Analysis of somatic DNA mutations in well-differentiated pancreatic neuroendocrine tumors identified four important findings: [28] [6] as expected, the genes mutated in NETs, MEN1 , ATRX , DAXX , TSC2 , PTEN and PIK3CA , [28] are different from the mutated genes previously found in pancreatic adenocarcinoma . [29] [30] one in six well-differentiated pancreatic NETs have mutations in mTOR pathway genes, such as TSC2 , PTEN and PIK3CA . [28] The sequencing discovery might allow selection of which NETs would benefit from mTOR inhibition such as with everolimus , but this awaits validation in a clinical trial . mutations affecting a new cancer pathway involving ATRX and DAXX genes were found in about 40% of pancreatic NETs. [28] The proteins encoded by ATRX and DAXX participate in chromatin remodeling of telomeres ; [31] these mutations are associated with a telomerase -independent maintenance mechanism termed ALT (alternative lengthening of telomeres) that results in abnormally long telomeric ends of chromosomes . [31] ATRX / DAXX and MEN1 mutations were associated with a better prognosis . [28] References [ edit ] ^ Burns WR, Edil BH (March 2012).
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Neuroendocrine Tumor
Wikipedia
G1 and G2 neuroendocrine neoplasms are called neuroendocrine tumors (NETs) – formerly called carcinoid tumours. ... Unsourced material may be challenged and removed. ( November 2015 ) ( Learn how and when to remove this template message ) NETs from a particular anatomical origin often show similar behavior as a group, such as the foregut (which conceptually includes pancreas, and even thymus, airway and lung NETs), midgut and hindgut ; individual tumors within these sites can differ from these group benchmarks: Foregut NETs are argentaffin negative. ... Bone metastasis is uncommon. Hindgut NETs are argentaffin negative and rarely secrete 5-HT, 5-HTP, or any other vasoactive peptides. ... Not all cells are immediately killed; cell death can go on for up to two years. [ citation needed ] PRRT was initially used for low grade NETs. It is also very useful in more aggressive NETs such as Grade 2 and 3 NETs [83] [84] provided they demonstrate high uptake on SSTR imaging to suggest benefit. ... World Journal of Clinical Oncology . 2 (1): 28–43. doi : 10.5306/wjco.v2.i1.28 .MEN1, CDKN1B, SSTR2, DAXX, ATRX, BRAF, TYMS, PTHLH, SSTR3, SSTR1, BAP1, MTOR, SST, GAST, SLC6A2, INSM1, CTNNB1, RET, PIK3CA, DNMT3A, POMC, EPHB1, PIK3CG, PIK3CD, CHGA, ELK3, CHEK2, PIK3CB, GRN, CD274, SMUG1, AKT1, GNA12, TP53, SYP, VEGFA, CDKN2A, ASCL1, BCL2, ENO2, NCAM1, GCG, MYCN, EGFR, MGMT, KIT, RASSF1, VHL, SCLC1, SSTR5, FOLH1, NKX2-1, KRAS, CALCA, CCND1, TAC1, PTPRF, VIP, NTS, PAX5, RHBDF2, GRP, IGF1, SDHD, GOT1, MAP2K7, CCK, ERBB2, DLL3, PPY, CXCL12, TP63, SMAD4, MUC1, INS, GCGR, CKAP4, NEUROD1, ISL1, MYC, NGF, SATB2, GLP1R, HSP90AA1, H3P10, HRAS, CHGB, CALR, NTRK1, TEK, DLK1, CDK4, CDX2, TGFA, UCHL1, RPE65, PGR, PDGFRA, CARTPT, CRH, UVRAG, SLC5A5, CXCR4, IGF1R, OTP, IL6, PHLDA3, TTF1, PAX8, TACR1, STK11, TRIM21, PLA2G15, SCG2, SQLE, SLC18A2, TERT, HDAC9, SLC2A1, PROM1, BCL2L11, NTSR1, PAX6, NAMPT, NOCT, INA, PLCB3, CD200, MKI67, PDX1, MAPK1, NES, HPSE, PTEN, STMN1, ABO, RIPK1, RORC, RAF1, IL1B, TRPV1, GATA3, ANGPT2, FOXM1, PTK2B, SDHAF2, ACCS, BDNF, EPAS1, EGF, ACSS2, MIB1, DNMT1, CCN2, TRPM8, CLDN4, CPE, CD34, CD44, FLNA, CEACAM5, B3GAT1, GH1, GIP, GHSR, GIPR, ADCY2, ALB, H3P28, TPPP2, H4C5, GGH, MIR1290, TMEM209, ELOA3, H4C13, H4C14, GPR151, SRPX, LGR5, TNFSF11, PSMG1, DCBLD2, H4-16, NRP1, MRGPRX4, SOCS1, H4C2, MIR3137, MRGPRX3, TNFRSF25, H3P12, CYYR1, AZIN2, DNER, AK6, MLIP, LMLN, NRP2, GPR68, MIR1246, H4C8, MAFK, MIR150, MIR155, MBOAT4, H4C9, MIR21, POTEKP, VN1R17P, SNORD95, GPR166P, ARID1A, EID3, SLC7A5, MIR375, H4C15, FZD4, MIRLET7C, OXER1, H4C12, HMGA2, H4C3, ARX, ELOA3B, GPRC6A, H4C11, H4C6, C17orf97, POTEM, MRGPRX1, ARMH1, H4C1, GADL1, ACTBL2, H4C4, BRI3, SQSTM1, ISYNA1, GHRL, ACOT7, KLF12, KRT20, SLC27A4, TET2, BCOR, EBNA1BP2, RALBP1, PGRMC1, LAMTOR1, FBXW7, MEG3, MAML3, TMEM127, NTNG1, ATRAID, KHDRBS1, DCTN4, SNORD61, NUP62, SNORD48, NTSR2, LPAR3, MAPK8IP2, SRRM2, BRD4, TRAM1, SPINK4, XIST, PPWD1, RBMS3, SETD1B, ZHX2, TNFSF13B, USE1, MAK16, UBE2Z, ONECUT2, FHL5, GCM2, DCLK1, ZBED1, ARHGEF2, PALB2, ALG9, SNED1, TET1, PDCD1LG2, TMPRSS13, MTA1, RPAIN, H1-10, EEF1E1, LGR6, PRMT5, NEUROD4, YAP1, SCML2, LANCL1, PAK4, RABEPK, ZNF197, CTNNBL1, PNO1, INSL5, EPB41L5, HDAC5, AKT3, CD302, GBA3, DCAF1, ATAT1, SERPINA3, VCL, CGA, ESR1, ERBB4, EPHB2, E2F1, DUSP2, DSG3, DPT, DPP4, DMBT1, DDC, DAD1, VCAN, CREB1, CRABP1, KLF6, CLU, FOXN3, CEACAM7, CEACAM3, ESR2, ETFA, EZH2, GHRH, HSPA4, AGFG1, HMOX1, HMGA1, GTF2H1, GSN, GNAS, GNA15, GFRA1, F3, GDNF, FSHR, FLT4, FLII, FLI1, FOXO1, FHIT, FGFR4, CGB3, CFL1, UQCRFS1, CDKN2C, FAS, APRT, APLP1, XIAP, APC, SLC25A6, SLC25A4, ANGPT1, ALK, AKT2, AFP, PARP1, ADCYAP1R1, ADCYAP1, ACVRL1, ACTN4, ACTG2, ACTG1, ACR, AQP4, ARF1, ATM, CASP3, CDK6, CD40LG, CD36, CD33, CCNE1, CCKBR, SERPINA6, CAV1, CA9, ATOH1, VPS51, C5, BRS3, BRCA2, DST, BAX, AVP, ATP4A, HTC2, HTR2A, TNC, IAPP, SDC1, SCT, SORT1, RNASE3, RARB, PTPRZ1, PTPRM, PTBP1, PSMD7, PSG2, PRKAR1A, PPP4C, POU4F1, PNN, PKD2, PITX2, PCYT1A, SERPINA5, PAX4, SDCBP, SDHB, SDHC, ST2, UBE2I, TPM3, TPH1, TNF, TM7SF2, TERC, TAT, STAT3, SSTR4, SEMA3F, SSR2, SOX11, SOX4, SOX2, SLPI, SLC3A2, SLC1A5, SFRP1, PAK3, PAK1, TNFRSF11B, KIF11, MDK, MAOA, LCN2, RPSA, L1CAM, KRT19, KRT7, KRT5, IL12A, MET, IL9, CXCL8, IL2, IL1A, IGFBP1, IGF2, IFNA13, IFNA1, MDM2, MFAP1, ODC1, MUTYH, NTRK2, NT5E, NRAS, NOTCH3, NPY, NOTCH1, NFKB1, NEFM, MUC4, CD99, NUDT1, COX2, MTAP, MST1R, MST1, MSMB, MMP7, MLH1, PTPRC
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Problematic Smartphone Use
Wikipedia
For 3-4 year-old children: 180 minutes physical activity, 1 hour screen time, 10–13 hours of sleep time per day. [81] Phone settings [ edit ] Many smartphone addiction activists (such as Tristan Harris) recommend turning one's phone screen to grayscale mode, which helps reduce time spent on mobile phones by making them boring to look at. [82] Other phone settings alterations for mobile phone non-use included turning on airplane mode, turning off cellular data and/or Wi-Fi, turning off the phone, removing specific apps, and factory resetting. [83] Phone apps [ edit ] German psychotherapist and online addiction expert Bert te Wildt recommends using apps such as Offtime and Menthal to help prevent mobile phone overuse. [84] In fact, there are many apps available on Android and iOS stores which help track mobile usage. ... In Android a similar feature called "digital wellbeing" has been implemented to keep track of cell phone usage. [85] These apps usually work by doing one of two things: increasing awareness by sending user usage summaries, or notifying the user when he/she has exceeded some user-defined time-limit for each app or app category. ... The researchers implement an Android app that combined these three intervention types and found that users reduced their time with the apps they feel are a poor use of time by 21% while their use of the apps they feel are a good use of time remained unchanged. [86] AppDetox allows users to define rules that limit their usage of specific apps. [87] PreventDark detects and prevents problematic usage of smartphones in the dark. [88] Using vibrations instead of notifications to limit app usage has also been found to be effective. [89] Further, researchers have found group-based interventions that rely on users sharing their limiting behaviors with others to be effective. [90] Bans on mobile phone use [ edit ] See also: Mobile phone use in schools In some places in the world the use of mobile phones was banned in classes during instructional time, for example, in France , Ontario . ... PMID 27736736 . ^ Young, Kimberly (27 February 1998). Caught in the net : how to recognize the signs of Internet addiction--and a winning strategy for recovery . ... IGI Global ^ a b "Smartphone overuse may 'damage' eyes, say opticians - BBC Newsbeat" . BBC Newsbeat . 28 March 2014 . Retrieved 12 June 2018 . ^ Bianchi, Adriana; Phillips, James G. (2005).
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Pancreatic Neuroendocrine Tumor
GARD
However in some cases, a pancreatic NET occurs outside of the pancreas. A NET arises from cells that produce hormones, so the tumor can also produce hormones. ... Pancreatic NETs are called either functional or nonfunctional. A functional pancreatic NET causes specific symptoms because it makes extra hormones, such as gastrin, insulin, or glucagon. ... Pancreatic NETs can be hard to diagnosis, often not identified until 5 to 10 years after they begin to grow. Most pancreatic NETs are not inherited and occur sporadically in people with no family history of NETs.MEN1, PCSK1, ATM, BRCA2, C11orf65, IGF2, SST, TP53, CDKN2A, SLC6A2, MTOR, EPHB1, POMC, GH1, GCGR, DAXX, ELK3, KRT19, SSTR2, CHGA, SSTR5, UCHL1, FZD4, GCM2, DLGAP1, DCLK1, SSTR4, INA, STK11, EIF2AK3, TFE3, THBD, CXCR4, PAX8, TSC1, TTR, TYMS, VEGFA, ABO, CNPY2, MRGPRX4, GPR166P, VN1R17P, MIR196A1, GADL1, MRGPRX1, GPRC6A, OXER1, GPR119, GPR151, MRGPRX3, SEMA3A, AZIN2, ACCS, STK33, LGR6, ACSS2, MEG3, NEUROG3, LPAR3, LILRB1, PLA2G15, RET, SLC2A3, INSM1, GRN, FFAR1, GHRH, GAST, FGFR4, F3, EGFR, DHCR24, CSF1, CRH, CHGB, CD44, CCK, CALCA, VPS51, ATRX, ASS1, ASCL1, ANGPT2, HSF1, PDX1, SLC2A2, KIT, SLC2A1, SEA, SDHB, SDHA, AKT1, PYGM, PTH, PTEN, PPY, PTPA, PGR, PCYT1A, PCNA, NFKB1, NEUROD1, MUC1, SMAD4, STMN1, KRAS, H3P10
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Neuroendocrine Tumor
GARD
A neuroendocrine tumor (NET) is a rare type of tumor that arises from specialized body cells called neuroendocrine cells . ... Pancreatic neuroendocrine tumors (also called islet cell tumors) - NETs that typically arise in the pancreas, although they can occur outside the pancreas. A p heochromocytoma is another, rarer type of NET that usually develops in the adrenal gland , but can also arise in other parts of the body. ... Functional NETs produce a specific set of symptoms due to the production of excess hormones, while non-functional NETs generally do not cause specific symptoms. In many cases, a person has no symptoms until the tumor spreads to the liver and/or impairs the function of an organ or system. This can make NETs very hard to diagnose. The majority of NETs are not inherited and occur sporadically in people with no family history of NETs.
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Cerebral Amyloid Angiopathy, App-Related
OMIM
A number sign (#) is used with this entry because cerebral amyloid angiopathy (CAA) can be caused by mutation in the gene encoding the amyloid precursor protein (APP; 104760). Mutations in the APP gene can also cause autosomal dominant Alzheimer disease-1 (AD1; 104300), which shows overlapping clinical and neuropathologic features. ... Revesz et al. (2003) reviewed the pathology and genetics of APP-related CAA and discussed the different neuropathologic consequences of different APP mutations. ... In 4 affected members of an Italian family with cerebral amyloid angiopathy, Obici et al. (2005) identified a mutation in the APP gene (104760.0019). In 2 brothers from an extensive Iowa kindred with progressive dementia and cerebroarterial amyloidosis, Grabowski et al. (2001) identified a heterozygous mutation in the APP gene (N694D; 104760.0016). ... Human APP mRNA was detected in neurons and neuronal processes, but not in vessel walls. ... Herzig et al. (2006) extended their earlier studies by developing several murine models of APP-related CAA and APP-related parenchymal amyloid deposition.
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Occupational Hearing Loss
Wikipedia
Within the United States of America alone, 10 of the 28 million people that have experienced hearing loss related to noise exposure. ... "Evaluation of smartphone sound measurement applications (apps) using external microphones-A follow-up study" . ... "Smartphone-based sound level measurement apps: Evaluation of compliance with international sound level meter standards". ... Retrieved May 3, 2016 . ^ a b "CDC - NIOSH Topic: Occupational Hearing Loss (OHL) Surveillance" . www.cdc.gov . Retrieved 2016-03-28 . ^ a b "Ototoxic chemicals - chemicals that result in hearing loss" . Department of Commerce Western Australia . 2014-01-08 . Retrieved 2016-03-28 . ^ Campo P, Morata TC, Hong O (April 2013).
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Inclusion Body Myositis
OMIM
The authors discussed the abnormalities of APP processing, the role of abnormal intracellular protein folding, oxidative stress, and the potential role of cholesterol in the pathogenic cascade of IBM. ... Accumulation of the amyloid-beta peptide, which is derived from proteolysis of the larger beta-APP, seems to be an early pathologic event in both Alzheimer disease and IBM; in the latter, it occurs predominantly intracellularly within affected myofibers. To elucidate the possible role of beta-APP mismetabolism in the pathogenesis of IBM, Sugarman et al. (2002) selectively targeted beta-APP overexpression to skeletal muscle in transgenic mice, using the muscle creatine kinase promoter. They reported that older (more than 10 months) transgenic mice exhibited intracellular immunoreactivity to beta-APP and its proteolytic derivatives in skeletal muscle. In this transgenic model, selective overexpression of beta-APP led to the development of a subset of other histopathologic and clinical features characteristic of IBM, including centric nuclei, inflammation, and deficiencies in motor performance.GNE, NT5C1A, APP, TARDBP, HLA-DRB1, SQSTM1, APOE, KHDRBS1, NUP62, DCTN4, GTF2H1, SDC1, CDR3, GSN, MAPT, TRBV20OR9-2, HLA-C, PLAAT4, FYCO1, MSTN, TNFRSF12A, NFAT5, CCR2, UBB, MALAT1, VCP, RBM45, AOC3, DCD, UCN2, DNAJB6, OPTN, KLRG1, MAP1LC3A, LILRB1, KDELR1, ICOSLG, SYNM, ROBO3, DDX58, CHMP1B, PABPC1, TIMP1, RRM2B, TWNK, FOXP3, KRT20, TTR, ACTB, THBS1, CST3, HLA-DQA1, HK1, H1-0, NR3C1, EPHB2, EMD, DES, CD47, TGFB1, CD38, CD36, CD34, MS4A1, CAPN3, BCL2, AOC2, HLA-DRB3, HMGB1, IFN1@, IFNG, TRIM21, AGER, MOK, PTPRC, PSME1, PSMB10, MAPK1, POLG, PMP22, MMP9, MMP1, MLF1, LMNA, IL6, IL1B, LOC102723996
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Alzheimer's Disease
Wikipedia
The hypothesis holds that an amyloid-related mechanism that prunes neuronal connections in the brain in the fast-growth phase of early life may be triggered by ageing-related processes in later life to cause the neuronal withering of Alzheimer's disease. [64] N-APP, a fragment of APP from the peptide's N-terminus , is adjacent to beta-amyloid and is cleaved from APP by one of the same enzymes. N-APP triggers the self-destruct pathway by binding to a neuronal receptor called death receptor 6 (DR6, also known as TNFRSF21 ). [64] DR6 is highly expressed in the human brain regions most affected by Alzheimer's, so it is possible that the N-APP/DR6 pathway might be hijacked in the ageing brain to cause damage. ... Osaka mutation A Japanese pedigree of familial Alzheimer's disease was found to be associated with a deletion mutation of codon 693 of APP. [65] This mutation and its association with Alzheimer's disease was first reported in 2008. [66] This mutation is known as the Osaka mutation. ... A β is a fragment from the larger amyloid precursor protein (APP). APP is a transmembrane protein that penetrates through the neuron's membrane. APP is critical to neuron growth, survival, and post-injury repair. [103] [104] In Alzheimer's disease, gamma secretase and beta secretase act together in a proteolytic process which causes APP to be divided into smaller fragments. [105] One of these fragments gives rise to fibrils of amyloid beta, which then form clumps that deposit outside neurons in dense formations known as senile plaques . [98] [106] AD is also considered a tauopathy due to abnormal aggregation of the tau protein .APP, ACE, TREM2, ADAM10, APOE, PSEN1, GSK3B, HFE, MAPT, PLAU, NPY, BCL2, CASP3, BDNF, IDE, INSR, IL1B, LEP, BACE1, IGF2, IGF1R, ATP5F1A, INS, BAX, CR1, A2M, ABCA7, TOMM40, CD2AP, BIN1, EPHA1, CLU, PICALM, NOS3, PSEN2, APOC1, MPO, SORL1, VSNL1, INPP5D, NECTIN2, MS4A4A, PCDH11X, CASS4, BCHE, MIR146A, CYP46A1, DHCR24, CHRNA7, NCSTN, VEGFA, DPYSL2, PRNP, ESR1, PPARG, RELN, HMOX1, ACHE, CST3, MAOB, TNF, MTHFR, IGF1, CD33, TFAM, IL6, CYP2D6, CRH, SOD2, UNC5C, PLCG2, TF, ABI3, WWOX, SLC30A6, CHRNB2, ARC, PGRMC1, F2, CALM1, EIF2S1, HLA-DRB5, ENO1, TPI1, IGF2R, SLC30A4, MIR296, SLC2A4, MIR100, IQCK, MIR375, AMFR, SNAR-I, ADAMTS1, MAPK14, PIN1, PYY, PTGS2, S100B, PPARGC1A, NOS2, NGFR, NGF, NFE2L2, SOD1, SYP, CDK5, NGB, MIR505, GAPDHS, MME, MAP2, CTNNB1, TPP1, LRP1, IRS1, CHAT, GAPDH, MIR4467, MIR3622B, AGER, MIR766, MIR708, CAV1, NTRK2, PTGS1, APLP2, ADAM17, MFN2, DNM1, HSF1, GSR, IL33, CCR5, HSPD1, HSPB1, CIB1, CASP8, IKBKB, SERPINF1, ATP7A, MT2A, ADAM9, INS-IGF2, BCL2L2, CASP9, GAB2, PTK2B, PLCB1, ABCA1, GRN, CASP12, SQSTM1, FERMT2, HLA-DRB1, NFIC, CSF1R, APOB, MARK4, HSPG2, MS4A6A, CELF1, VCP, SYNJ1, ZCWPW1, MS4A4E, APH1B, APOC2, F13A1, EXOC3L2, PLXNA4, ADAMTS4, AKAP9, MADD, DST, PILRA, FRMD4A, LAMP1, SLC24A4, GLIS3, SPON1, CADPS2, IL34, COL18A1, TRIP4, SPI1, TGFB2, BCL3, MTHFD1L, AICDA, IL6R, DCHS2, MEGF10, SLC16A7, EPHX2, NDUFAF6, DSG2, OSBPL6, CELF2, UBE2L3, SPPL2A, MAPK7, CDH13, LAMA1, SGK1, SUCLG2, LUZP2, PTPRG, ST6GAL1, AP2A2, RBFOX1, SORCS3, TSPOAP1-AS1, TLN2, ZAP70, ALDH1A2, TCF7L2, FMN2, OTOF, EXOC4, HSD17B10, DNM1L, ALOX5, GULOP, HTR2A, AHCYL1, SDR42E2, HTR6, GTF2H1, GRM5, IAPP, AHSA1, STAG3, ALB, FARP1, TSHZ1, HRES1, AGFG2, DCAF7, SIGMAR1, BCKDK, RTN3, TPPP, HSPA4, HCLS1, HSP90AA1, G3BP1, PGAM5P1, BACE1-AS, KHDRBS1, ALDH2, CFH, HCRT, GPC6, ABCA8, GLP1R, NR3C1, TNRC6A, IL19, PARVB, DDX25, BZW2, FCN2, FGF10, GOLIM4, LINC00476, HPGDS, FANCD2, PDE7B, SIGLEC7, TSPAN16, TRPC4AP, POLDIP2, CNTNAP2, RNF19A, BACE2, UBQLN1, ITSN2, GRIN2B, ZGLP1, BCAS3, EPDR1, TMED9, ENO2, CYCS, ANXA1, EPHB2, EPO, RAPGEF6, APH1A, LARS1, EYA4, SNX9, ESR2, WAC, SLC8A1-AS1, DCTN4, RMDN1, QPCT, MTOR, SGK3, FBXL7, SZT2, GIP, ACSL6, WWC1, CLEC16A, KAZN, LINC01672, PRRC2C, COLGALT2, PLD3, HECW1, ZNF292, MYO16, DKK1, SIRT2, ACOT7, PSIP1, CLASRP, LINC00271, SIRT3, SIRT1, GFAP, NUP62, FYN, CBLC, INHCAP, TRIM51CP, GABPA, GABRA2, GABRG3, DAPK2, SMUG1, GAP43, GATA1, GCG, GCHFR, TARDBP, NCS1, GDNF, HDAC6, RAB3D, MVP, OGG1, LINC02268, LINC02325, SOAT1, ACTG2, ACTG1, SNCG, SNCA, SNCB, SNAP25, NOS1, ACTB, MEF2C-AS1, SLC6A4, NPC1, SLC6A3, GEMIN7-AS1, SLC1A2, LINC01508, LINC01725, NEFL, COX2, TNFRSF1B, STAG3L5P, TLR4, TLR2, MSH2, THY1, MT3, TH, SST, STAG3L5P-PVRIG2P-PILRB, TGFB1, TFF1, RNR2, LINC02653, LINC01712, TCF3, NRGN, CX3CL1, ELMO1, CCL2, PIK3CG, ABCA2, PLA2G1B, EIF2AK2, SERPINA3, PLG, MAPK8, MAPK1, PRKCB, PRKCA, PRKAB1, PRKAA2, PRKAA1, PMS2P1, POLD1, PTPA, PON1, PIK3CD, PIK3CB, PIK3CA, MOK, UPK3B, SORT1, ROS1, SERPINE1, REST, REN, RELB, RAC1, LINC01965, PVR, PVALB, PTPRA, LINC00972, ABCB1, LINC02008, MTCO2P12, TP53, OVCH1-AS1, MOBP, MNAT1, SLC4A8, AGT, INSIG1, AZIN1-AS1, EIF3E, FHL5, IRF2, GSTO1, ITM2B, GRAP2, LIPG, ADIPOQ, KL, MSC, LRAT, AP4M1, CCRL2, IL18, IL17A, IL12A, ST18, IFNG, ARL17B, AKT1, AIF1, KRBOX1, IGFALS, HDAC9, PHF14, IL10, IL1A, ALOX12-AS1, MICAL2, IL2RB, IL4, CLOCK, CXCL8, KCNN2, MPZL1, HERC2, VDR, TFEB, MAOA, COX10-AS1, ZNF232, YWHAZ, VLDLR, PARP1, UTRN, BCAM, UCHL1, UBB, TYROBP, AFF1, TTR, TRPM1, MMP9, AIMP2, LTBP2, KNG1, CRADD, CACNA1G, LAMC2, RPSA, CDK5R1, SUCLA2, LCN2, LDLR, BECN1, LPL, PDE5A, ABCB11, APOC4-APOC2, KHSRP, DENR, AGPS, LPA, CDKAL1, PPARA, MEIKIN, COL4A4, CRK, CEACAM22P, SCIMP, CREB1, CR1L, ZNF862, SH2D4B, CP, PNPLA7, SIMC1, GGACT, COMT, COL12A1, FAM181A, BRCA2, PPP1R37, GPR141, TENM3-AS1, CNR2, L3MBTL4, UBXN11, ACKR2, TMEM132C, CASTOR3, CLPTM1, STRADA, FNIP1, CDCA5, NLRP3, APOA1, CRMP1, KAT8, CSMD1, CLMN, PINK1, CYP8B1, AHNAK, MIR132, MIR107, CUX1, POTEM, PPP1R3B, FAS, SAP30L, ANKRD55, CTSD, CTSB, GEMIN7, EHMT1, LINC01184, CTNNA2, LINC01185, TMC5, THSD4, CCDC134, SP6, LINC01567, PDCD1LG2, SETD7, APOD, BHMG1, CSF2, HYI, BLOC1S3, TSPO, CHRNA4, CHRNA2, TAS2R62P, C3orf67, C9orf72, CCDC83, CCDC89, KDM1B, CD14, TGM6, ATXN7L1, RSPO4, ADGRF2, STH, TAS2R64P, CALHM1, RUNX1T1, PPP1R42, ALPK2, PCSK9, CAT, ANKRD31, CASP6, NKAIN3, TRIQK, CALB1, STEAP1B, CASP1, EPHA1-AS1, CAPN1, APOC4, FAM181A-AS1, NKPD1, SPRED2, CD36, SCARB1, PLPP4, MED12L, ARAP2, CHN2, CHI3L1, ACTBL2, C10orf71, MCIDAS, LRRK2, AKR1C4, ANO4, AGBL1, CEACAM20, ZNF813, RMDN3, CETP, CDR1, LINC00343, TCAM1P, APOC1P1, IGSF23, RMDN2, CDK1, SLC25A48, NKAIN2, FSIP1, CD68, BMPER, C3, CD40, CYP19A1, CRP, NIT2, ANO3, DLG4, ARHGAP20, RCAN1, WDR41, NDUFA12, STK32B, EDEM2, DSCAML1, RNF165, SH3RF1, DYRK1A, MIR29A, SYBU, AQP4, APBB1, DLX5, DBN1, PALM2AKAP2, CEACAM19, DPP4, IL6-AS1, ARVCF, CDC42SE2, DMXL1, TULP4, DAPK1, PMS2CL, POTEKP, MIR34A, VAT1L, OLR1, HDAC2, LRP8, GSN, CCL11, S100A9, COL25A1, POTEF, KLK6, BLMH, HSD17B7, P2RX7, COX8A, ABCB6, PRRT2, IL2, SORCS1, NR1I2, MAPK3, ITGAM, CASR, ATP7B, VDAC1, EGR1, PDE4A, RAB5A, SUMO1, NRG1, OXER1, NTRK1, TFCP2, ANK1, CSNK1D, DLST, APLP1, BLVRA, NFIB, IL1RN, HTT, ACAT1, PLA2G4A, NFIX, NLRP1, GPRC6A, HMGCR, PPID, LPAR3, FZD4, REG1A, MRGPRX1, LRP2, DBH, PSENEN, VPS35, ESCO1, HSD11B1, VN1R17P, SOX2, AGTR1, XBP1, MIR155, MRGPRX4, MRGPRX3, GAL, GPR151, IL13, PAEP, OGDH, GPR166P, STAT3, SET, NFIA, PLB1, AR, LGR6, DHRS11, ABCG2, C4A, KCNIP3, HSD17B13, ABCG1, TTBK1, NOTCH1, EIF2AK3, SLCO6A1, CHMP2B, RBM45, CD44, RIPK1, APBA1, GSTK1, ADNP, ICAM1, BRCA1, APCS, TNFRSF1A, NFKB1, CNTF, MMP3, KLC1, LBP, CTNNA3, SGSM3, FGF2, C4B, HIF1A, CREBBP, SERPINA1, TMEM106B, GRIA1, GRIA2, ECE1, C4B_2, GSAP, OGA, TFRC, PLA2G6, ST3GAL4, PAWR, MFAP1, KAT5, GSTM1, APRT, COX1, HP, NTF3, MIR206, FPR2, CDC42, FUS, MARK1, FGF1, PREP, C5AR1, PON2, MIR29C, CALB2, PDIK1L, SYK, S100A1, CH25H, SREBF2, COX5A, GRIN2A, VCAM1, TMED10, GSTP1, KLK8, PHF1, CXCL10, MEFV, SP1, GJA1, IGFBP3, SLC17A7, CYP3A4, FOXO3, HMGA1, SLC11A2, XPR1, MARK2, PPIF, CRHR1, SHANK3, MYC, CD40LG, CPOX, FKBP5, ANPEP, CAST, C1D, FKBP4, HSPA1A, FLT1, MIF, PLA2G2A, CX3CR1, CSF3, IFNB1, KALRN, PLTP, STXBP3, DDR1, PWAR1, PRDX2, TP63, VIM, IL23A, F2RL3, MMP14, MEF2C, TREM1, TMED10P1, NAT2, MIR342, SAMD9, RAB7A, PGR-AS1, TRPM2, EGFR, ADRB2, CLDN5, ETS2, SYT1, TIMP1, NME8, ELANE, F2R, CD59, EPHA4, CBS, MSMB, APLN, MMP2, MYCL, CALML5, SYN1, XRCC1, TGM2, EEF2, PLA2G7, ELAVL2, EDN1, TMEM97, HMGB1, MIR455, HTRA1, BPIFA2, SLC52A2, NQO1, TUBA1B, FOS, CRYAB, SLC2A1, GPR3, LGMN, SLC2A3, RIDA, FN1, ABCA4, HSPA1B, PECAM1, PTEN, HSPA8, HLA-A, PTPN1, HAMP, TXNIP, GRM2, P4HB, LIN28A, PSPH, GSTT1, CCN2, DECR1, CPLX1, BCYRN1, NES, POU5F1P4, MIR21, GRK5, POU5F1, NTSR1, MIR212, PRKN, LINC02210-CRHR1, HSPA5, DLD, DAB1, HTRA2, POU5F1P3, MIR137, DNAH8, MAPK10, GH1, SERPING1, ADAMTS2, EEF2K, GSTO2, ROCK2, NEDD9, SPTBN1, NTN1, CEBPD, GDF2, CEBPB, PWAR4, SYNM, IGFBP2, GLUL, ABCC9, ATM, PSPN, PTPRC, MIR29B1, RANBP9, NDRG2, CNR1, RTN4R, PTBP1, AQP1, PDK1, MIR106B, PDE4D, ARNTL, PRDX1, ADM, RENBP, POMC, PTPN4, MS, PDGFRB, P2RY2, MIR142, PDE9A, SSTR4, KLK3, BCL2A1, C2, SRPK2, NFATC2, ADCYAP1, LRRTM3, PLD1, NUBP1, MIR424, ATF4, BSG, MIR29B2, PPY, BMP4, TBP, SLC18A3, POLB, NOTCH3, SLC18A2, NPTX2, MTR, SI, MIR222, SH3GL2, ND2, NR4A2, SELENOP, CXCL12, CCL5, ATXN1, CALM3, ITGAX, IFNA13, DISC1, OPTN, HTR1F, HTR4, WNT3A, COL11A2, C20orf181, IFNA1, KEAP1, HDAC4, KLK4, SEMA6A, LRRC4, CRTC1, IL9, DAO, ALOX15, AGTR2, IDO1, SLC25A27, ABCG4, CD55, APOA4, MCOLN1, REM1, ATCAY, EBPL, HSPB2, HSPA9, PLK2, GAD1, NANOG, DCX, COASY, UBE2K, DDIT3, TREML2, APBB2, MAP1LC3B, SRRM2, GZMB, FXN, HNRNPA1, HPSE, RAB10, CIP2A, FOLH1, STIM2, DIO2, MMP24, CEBPZ, GBA, CDR2, ITPR3, CDKN2A, MELTF, SLC30A3, ADRA2B, FTO, FNDC5, GGA3, XPNPEP1, VGF, NR1H2, UGCG, MFGE8, MGAT3, CXCR4, TLR9, APOC3, GPT, ELK3, NEAT1, ADORA2A, MMEL1, TRPC6, EIF4E, CAMK2A, MS4A6E, SRR, HSPA14, IRS2, MGAM, C1orf52, HDAC3, PABPC4, ACKR3, LGALS3, FAM20C, WNK1, DRD4, CYP2C9, MBTPS1, DRD1, LRP6, GRK2, CYP2B6, OGT, LIPA, AD11, GORASP1, PTGDS, SPEN, MIR200B, NPTXR, DNMBP, MIR200A, NCOA6, MIR181C, RBP4, RELA, OPN1LW, EFHD2, MIR188, TPH1, HNRNPA1P10, CTNNBL1, SLC40A1, PNO1, CHCHD2, SDF4, RETN, GOLM1, PPP3R1, PYCARD, PAG1, CCR2, DDIT4, RCBTB1, SBNO1, PPARD, CD274, PCBP4, ACE2, PROS1, PRND, PPP1R15A, CIZ1, MIR26B, TPSG1, GGA1, CFAP97, MAP2K1, AATF, SHANK2, PRL, RBMS3, LOC107987479, MAP2K2, PAXIP1, CHCHD10, SBNO2, PTGES, SPHK1, LPAR2, PPIG, NRXN3, MED23, SPP1, MAPK8IP1, BAG3, APBA3, TAP2, PRDX6, CARTPT, SNAP91, SV2A, MALAT1, MAK16, SYVN1, GDF11, TAC1, TAT, SLC6A2, TRPV1, CISD3, TPT1, TSC2, TM7SF2, TXN, UBE2I, TLE1, TIMP2, XK, CNTN2, TGFBR2, YY1, GOLGA6A, ANP32A, TAM, TERT, DCP1B, TNFSF10, PPP1R1B, GPHN, RGS2, ADAM30, SAA1, METAP2, IMMT, SDS, ADAP1, RYR3, ECHDC3, RYR2, RXRA, SCD, RPS6KB1, CIT, RPS6, CTXN3, LMTK2, NLGN1, ROCK1, RGS4, ATXN2, SRL, STUB1, SHBG, LILRB2, AKR1A1, OLFM1, SKIL, SLC9A6, CREB3, PITRM1, SCGN, CXCR6, OCM, RIN3, SGCA, SFPQ, NCKAP1, CPLX2, TP73, EDAR, CCL3, NPS, BEST1, HPS1, CXCL1, GLO1, LIF, CDH1, LHCGR, CDK4, PCNA, PCK1, L1CAM, GPR42, GPX1, GRB2, ANGPT1, ANGPT2, CETN1, MYD88, GLB1, AKT2, LMNA, DNMT3B, TSC22D3, CD38, PER1, CD69, DRD3, LOX, CD74, LMNB1, DNM2, GAS6, AVP, GC, DMRT1, SARDH, GRIN1, ANXA5, BACH1, P2RY1, INPPL1, CSF1, CS, NEFM, NTS, APEX1, STS, HTC2, NEUROD1, NPTX1, NPPA, ATF2, HTR2C, ARRB2, IGFBP7, HMGCS2, CLK1, CKB, APBA2, CYP17A1, GSTM3, CHGA, CYBB, JUN, CTSS, ORM1, ITPR1, CHRM1, CHRM2, OPRK1, OPRD1, CTRL, HK1, ADRB1, LAMP2, CASP2, EDNRA, PLD2, CAPN2, F2RL1, ACO1, ERBB4, FAT1, FGFR3, CALM2, BRS3, CALCA, CAD, EGF, CASP4, FCGR3B, FDPS, LYZ, FCGR3A, FLNA, MECP2, FABP3, ADRA1A, PLXNA2, MBP, FAAH, ENPEP, F12, BAG1, MEOX2, HOMER1, ITGB2, DBA2, ITGAL, ITGB1, AIM2, AZIN2, CD80, ITIH4, CD46, VIP, CHRNA3, ATG5, TREML1, MCL1, GPRASP2, VWF, APOA5, TMEM119, KLF4, SOCS6, WNT1, XBP1P1, FOXQ1, C3AR1, OPN4, USF1, C1QA, CXCR2, VPS26A, MOGAT3, CCR3, IL6ST, IL5, IL1RAP, LMF2, IL1R1, CREB3L1, UNG, MCU, CLSTN3, SNPH, IL9R, NPEPPS, NAPSA, USF2, MEF2A, ING1, CGB8, FTMT, CHM, VAV1, IMPA1, C1R, ILK, ADAMTS3, IL16, MAP3K5, IL15, GDF15, CGB5, CA2, KCNB1, TSPOAP1, SMAD2, DPPA2, SGO1, LIG3, IFNL3, TNK1, CP20, APCDD1, HSD17B6, CDKN1A, TTBK2, CDKN1B, SLC2A14, CFLAR, STMN1, LIPC, TAB3, CHIT1, BRAP, SPARCL1, MLKL, PTCRA, CD47, LGR5, CD8A, CCT, NR4A3, USP9X, MSRB3, CDR3, CCK, LNPEP, CASP7, CHRFAM7A, CAMP, PER3, YES1, CGA, MARK3, CGB3, SYNGR1, CALCR, IL1RL1, ARHGEF2, PER2, SLC33A1, TPH2, CHEK1, RAB7B, NOG, MBL2, CFL2, HSPB6, AHSA2P, SLC30A1, CD200R1, SOCS3, KDR, KIF5A, HAP1, CALR, CES1, TRPA1, HSPB3, WASF1, SLC32A1, ARHGEF7, CAMK4, COL3A1, H3P40, SCRN1, PTCD1, SPHK2, ATN1, PPIL2, POU2F1, FOSB, GCA, FLT4, SH2B1, APPL1, DNMT1, FLG, FOXO1, DUSP1, DUSP6, HHAT, HSPB8, E2F1, PLXNA3, DOCK2, PNPLA2, ADI1, GMFB, GPI, GPC1, KIF21B, NMNAT2, TRIB3, ALS2, DLG2, DLG3, GLS, PDSS2, ASTN2, MCF2L, GLI2, KIDINS220, CBLIF, SYNE1, DMD, GGT1, FKBP1A, SIT1, SV2C, GDE1, FOXP3, ASCC1, TMED7, FIS1, PRLH, CRYL1, ADIPOR1, LSR, F11, MBL3P, SIRT6, TRMO, NRN1, LCMT1, PRRX2, ERN1, BIN2, UBR5, HEBP1, GEMIN4, PDCD4, TBK1, SLC25A38, FGF14, PCSK1N, TRPM7, DLL1, FLVCR1, AHI1, SETD2, ELK1, IL22, NCAPH2, ELN, PADI1, BPTF, NRBF2, FABP5, EP300, PLA2G3, GRHL3, CXCR3, NAV3, SIRPB1, FLOT1, MET, KCNMB2, CRISPLD2, ARHGAP24, HNMT, SNX27, NPL, BHLHB9, TRIM13, HMOX2, KLF2, CSNK1E, LPAL2, CPQ, PPP1R2C, RAPGEF3, TET1, CRYZ, SORBS3, CTBP1, BCL2L11, COL17A1, NCAPD2, COX10, UBASH3B, NR1I3, ACOT8, PTPN5, PPP1R9B, TOM1, MINDY4, CPE, HTR7, NR1H3, HTR1B, HTR1A, LRPPRC, PDIA6, RHBDD1, NAA25, HLA-C, TPX2, BCAN, ADAMTS13, MOAP1, TNMD, GRIA3, NEUROD6, CHEK2, PADI2, HRH3, PHB2, SIL1, MGLL, FFAR1, GADD45A, MMRN1, DEFA1, IL21, NLRC4, GPR17, AZI2, HHIP, CTF1, HCRTR2, HLA-B, CTNND2, HHEX, HGF, CTSG, HDAC1, CTCF, DHX40, PTGES3, STIP1, CTSZ, CXADR, CARD14, CYP1A2, PDE10A, LILRB1, EHMT2, PDIA2, UMOD, ANGPT4, MIR339, SYN2, MSD, ACP3, APEH, ST8SIA1, AZU1, PI4KA, NCAM1, MIR144, SMIM10L2B, MSI1, NAP1L1, PRSS3, PEBP1, MASP1, SIM2, TIA1, MIR15B, ATD, RPL29, ABCC1, NCAM2, MIR125A, TLR5, SERPINF2, TNFAIP1, CXADRP1, MAPK9, ZFHX3, GGTLC4P, AD10, SGCG, MIR451A, CDR1-AS, TPTEP2-CSNK1E, MIR384, ITSN1, CBSL, MPZ, NFATC4, PKM, NCL, NTF4, LOC643387, SLC1A3, APOA2, THAS, PSMB6, SERPINB6, PSMB9, RHOA, ARMCX5-GPRASP2, SMPD1, REG3A, ATP4A, MIR193B, RFC1, NOTCH4, SLPI, PGF, AEBP1, MIR214, MIR219A1, SLC19A1, MIR22, PCSK1, ALPP, AMD1, MTNR1A, TGFBR1, COX3, ATP12A, NM, ADD3, PSD, TGM1, ARR3, NPM1, PAK1, TMED7-TICAM2, PNP, MIR195, MTHFD1, ADH1B, AMPH, ND4, AMD1P2, ARG1, SULT2A1, RRAS, PDE7A, TTPA, TYK2, TXNRD1, PPP1R1A, PPP1R10, SPG7, SPAST, RAB4A, PPP2CA, OTC, PPP2R2B, MMP1, ARMS2, RAB3A, GGTLC3, RTL1, P2RX4, ST13, SPARC, ALAS1, PPP3CA, NEFH, SEL1L, TYR, RAB6A, MICB, PPIA, CCL4, BST1, TICAM2, BNIP3, MIR326, OPRL1, PON3, BMP6, OPRM1, AHSG, H3P17, SDC2, AGRN, TYRP1, PPP1CA, BMI1, TYRO3, PNMT, DEFA1B, GGT2, ORI6, SMIM10L2A, CISD2, ARSA, EIF2AK4, PRKAR1A, LRP1-AS, SRSF2, MIR98, MIRLET7B, CD200, PDCD1, RAP1A, GGTLC5P, CCND1, ANXA6, FXYD1, S100A6, NFATC3, PLK1, ABO, PTGER3, APC, S100A12, ASL, HSP90B2P, SETMAR, PRRX1, PZP, STAT1, ODC1, CFB, CDNF, ZBTB4, PARK16, SUGP1, DIO1, SORCS2, MAGEE1, ALDH1A1, MIR1306, DES, DIAPH1, LSM2, MIR1229, XPO5, HCN3, CFD, MIR664A, KIF17, WDR48, MTRNR2L12, PRX, DHFR, EPG5, SEPTIN1, FAS-AS1, RNF213, MIR320E, MIR1908, HECW2, LINC00672, NUFIP2, ABCD1, DLG1, QRFP, ZNF410, AOC2, NBEAL1, CYP11A1, OPN1MW2, AD6, P2RY12, NMNAT1, DEPTOR, TNS3, CYP2D7, FAM72A, NUCKS1, CLEC7A, CYP26A1, ARAP3, GREM2, CDKN2B-AS1, CYP2J2, UBE2Z, MIR1246, TSPY3, MIR632, CTSK, GTDC1, CTSL, MIR650, MIR660, SNORD118, TNFAIP8L2, LYNX1, MUL1, PAGR1, CYLD, MAPKAP1, APOF, PDCL3, CYP2C19, NOC3L, CYP27A1, DPEP2, MFT2, PROK2, HPSE2, AD14, AKR1C2, ALPI, TRPV4, NTN4, PRM3, PDF, JAM2, ALOX5AP, TSPY10, DEFB4A, DEFB4B, ALOX12, PTBP2, DCN, NECAB3, FKBPL, NEUROG2, DGKQ, SLC25A4, MIR873, MIR301B, CENPK, DAXX, GFRA4, GOLPH3, ERVK-6, MTUS1, DBI, MIR937, ANG, ACE3P, SOD2-OT1, ANK3, DRD2, ZNF608, NAT10, DYM, LOC102724334, TRIT1, EIF4G2, TET2, EIF5, SERPINB1, ELAVL4, PDP1, ACO2, THRA1/BTR, UGT1A1, CCHCR1, CPVL, SMOX, TOLLIP, TERF2IP, SNTG1, EMP1, LOC102723407, EIF4EBP1, MIR6845, EIF2S3, ADCY2, NUDT11, EGR2, MSTO1, ADARB1, SLC6A15, ADA, TAPBPL, TESC, MIR6840, ACVRL1, FOCAD, EIF4A1, CASZ1, QRICH1, PGPEP1, EIF4A2, NDE1, ASIC2, CTTN, ACADVL, GSKIP, LNCRNA-ATB, ATP6V1H, H3P7, TDP2, ERBB2, CINP, ZCCHC17, H3P13, DTL, GPRC5B, ERCC1, DCDC2, NAT8B, GULP1, H3P23, ERG, H3P28, H3P11, PPIL1, STIN2-VNTR, NANS, EPHA8, H2BS1, POLE3, ACACA, SLC29A1, FXYD6, LRP1B, CST12P, SIRT1-AS, INPP5K, MSRB1, ARID4B, EPOR, ABL1, AAVS1, NR2F6, ERVK-32, LOC110366354, MNS16A, EFNA5, SLC47A1, ALAD, EEF1A1, SNHG19, MICA, DNTT, SOX21-AS1, DOCK3, DPYSL3, MIR626, XAB2, MFF, DUSP22, ARNTL2, SPPL2B, MCCC1, TMX2-CTNND1, ANKS1B, DPYSL5, FXYD6-FXYD2, BARHL1, DSC1, TWSG1, TLE5, DNASE1, DNA2, OCLN, NLN, AMIGO1, AHR, PLEKHG5, SLC24A3, SPC25, TTC7A, PELI1, JAG1, TMEM159, RTN4, APMAP, CD177, CAMK1D, PLAAT1, NR0B1, TIGAR, P2RX5-TAX1BP3, PARD3, GKN1, ADH6, INAVA, CDK5RAP2, OGDHL, LINC01080, ATF7IP, IPO9, VAC14, DVL1, PPP4R3A, OPN1MW3, EBM, OTUB1, SOX6, SLC30A10, SMPD3, MEG3, PLIN2, FBXW7, TDP1, ADORA1, DSC3, ACSS2, BTNL2, KIAA1217, ZNF253, CFC1, MIR4668, DSG1, APOM, MYO5C, MIR4487, NOTCH2NLC, USE1, SELENOS, GDNF-AS1, DSPP, ADCY10, ADRA2A, ZNF415, LINC-ROR, NARS2, CSF2RB, MIR616, MIR20A, CDC25C, PROM2, ATP6V1E1, IL23R, GLIS1, PM20D1, PHF13, CDH2, ZNF569, MIR191, CDK9, MIR192, PRIMA1, CDKN2D, MIR196A1, OR2AG1, LAYN, PIWIL4, MIR19B1, GPBAR1, CDC25B, GDF7, ZDHHC15, MIR139, CD63, SGMS2, MIR140, TMPRSS6, RHBDL3, AVPR2, MIR15A, CBLL2, MIR186, PRUNE2, AMOTL1, CD81, MIR18A, SLC2A12, CDA, MIR181A2, ATP5PO, SESN3, ATP6V1B2, UBR1, ATP5PF, PPME1, MIR224, LYZL4, KCNH8, MTERF4, MIR23A, CPO, ACMSD, MIR23B, BHLHE23, MIR25, CFL1, OSCAR, SPNS2, SEZ6, SLC38A10, MSI2, CFTR, MIR27A, MIR223, ALDH7A1, MIR221, SELENOM, ATP5MC2, CACUL1, HECTD2, SREK1, CTCFL, CBLN4, CDSN, ATP5MC1, DEFB104A, OCIAD2, MAGEC3, MIR210, CEACAM5, CECR, PPARGC1B, ATP5F1B, IL31RA, GNPDA2, SCARB2, NSMCE1, SOCS4, UBE2L1, BNC1, CACNA1C, SLC25A20, SERPINA13P, BLM, SREK1IP1, MIF-AS1, C20orf203, SYPL2, ZNF763, CCL4L1, BID, BGN, ZSCAN1, ZADH2, SMIM20, MILR1, PGP, GOLGA6L2, TMEM189-UBE2V1, TMEM189, IL31, C4BPA, BTK, AMIGO2, HCN1, NHLRC2, ATP9B, SBSN, BMP1, OSTN, C5, CFAP410, BARHL2, NANOS3, C9, STING1, GADL1, ARMH1, VPS51, HCAR2, CAPG, LINC00639, TMEM201, LIN28B, CD5L, MIR127, CD19, KIF6, MS4A1, MS4A3, HYLS1, STOX1, FOLH1B, OR8J1, TRIML2, CD28, KHDRBS2, GAPT, CENPV, KLHDC8B, MIR134, CD86, PIKFYVE, SLC29A4, CCNC, KRIT1, PTF1A, DAOA-AS1, BDKRB2, HCA1, BRD3OS, ASPM, BCS1L, SGMS1, BCR, MIRLET7D, MIR122, RUNX1, ANKK1, BCL6, PHYHD1, BAK1, MIR10A, EBF3, CCKAR, MIR28, FRMD6, MIR613, ADAMTS10, TMEM175, XIAP, MAF1, BIRC3, SLA2, ANTXR1, ASCC2, CRHBP, EVA1A, QRFPR, MAGT1, NCALD, LOC646506, ROPN1L, L3MBTL2, GMNC, SCFV, CSE1L, RNF146, PHF6, HOOK3, BRSK1, MBOAT4, COX15, MIR497, MFSD2A, MIR501, ACCS, ARG2, FAM126A, CPB1, CPN1, ECSCR, MAP1LC3A, MIR484, AQP9, CPS1, SNORD35B, CPT1A, ABLIM2, FASLG, NETO1, DOCK8, RNFT2, C1QBP, TM2D3, ASRGL1, PTGES2, PANK2, MIR590, SCD5, CSNK2A1, VCAN, ZC3H14, CSPG4, CTBS, MIR592, MIR598, CAMKMT, CTNS, SLTM, PTCD2, CTNND1, MIR603, NUBPL, WDR26, SPHKAP, GSTT2B, TMEM163, NCF1, LBH, SPAG11A, SFTPA1, CSF3R, ZNF436, CSN2, NDFIP1, MIR545, SLC44A4, SLC19A3, FAM72B, AIRE, IQCJ, CSNK1G2, DNAJC5, CSNK1G3, LINGO1, ATG4C, ATP2B4, MIR346, SERPINC1, CISH, ASPA, CLC, UCN3, TMEM54, ASS1P1, CLCN3, NACC1, ASIP, STX1B, IFT43, MIR133B, MIR151A, CLK2, TP53INP1, MIR330, MIR335, MIR338, MIR93, SLC26A7, OMA1, CHGB, PLD4, TDRD9, CHD1, MIR299, ATIC, ATHS, H4-16, LRIG3, EXOSC6, CHRM3, MIR30B, MIR30E, AGAP2, MIR31, MIR34C, MIR9-1, GRIN3B, GRIN3A, ASAH1, MIR369, H2BC12, KPRP, LRSAM1, MIR429, H4C15, SHF, GADD45GIP1, COL11A1, ZNF628, MIR431, HNP1, NAV2, MIR409, SLC31A1, RPPH1, SNORD14E, SNORD14D, SNORD14C, SNORD14B, COX6B1, MIR485, CNTN1, DNM1P33, CNTFR, CHRDL1, CLN3, MIR361, MYOCD, PRDM6, DNER, SPECC1, MIR377, CLN5, EXOC3L4, CNP, MIR425, ARRB1, ZNF804A, BDNF-AS, NLRP12, CCR6, ABCC2, DEFB104B, LRRC15, POU3F4, HOOK1, TERC, NAT1, MCM2, EZR, MDH1, VEGFC, MDH2, MDM4, MEF2D, UVRAG, UROD, UQCRC1, UGT1A, SLC35A2, UCP2, UBTF, UBP1, MID1, UBE3A, UBE2V1, CXCL9, ATXN3, UBE2D2, UBE2A, UBC, MAP3K10, MC1R, WARS1, WAS, ZMYM2, MANF, SCG2, FZD5, SMAD7, MAG, MAP3K12, MAP1A, MAP1B, ZNF236, ZNF224, ZNF217, RNF112, WEE1, MZF1, ZIC1, MARS1, MAS1, MAT1A, MAT2A, MAZ, XIST, WT1, WNT2B, WNT5A, UBA52, KMT2A, MLLT3, THBS1, TLR3, TLE3, MSH3, TKT, TIMP4, TIMP3, MSR1, MSRA, THRA, THOP1, THBS4, CYTB, MRE11, NUDT1, TGFBI, TGFB3, ND1, TFF3, TFDP1, MTNR1B, MTRR, TRNL1, MUC1, TERF2, TSPAN7, MRC1, TWIST1, TRAF2, TUBA4A, NR3C2, TTN, TSPY1, TSHR, TSG101, TSC1, MMP7, MMP8, TRPC1, TRH, NR2C2, TNFAIP6, MMP13, TPM1, MOG, MOV10, TP53BP2, TP53BP1, MPG, TNR, TNNI3, MPI, MPST, SLBP, REEP5, DEK, SNX3, TNFRSF6B, RAB11A, LDHA, LEPR, LGALS4, LGALS9, GPAA1, RNMT, GBF1, ADAM19, URI1, TRADD, LCK, B3GALT4, LIFR, LIG1, SOCS1, NUMB, LIMS1, AOC3, PDE8B, USO1, TNFSF11, STK16, LCT, CES2, KMO, KLRC1, BRSK2, KCNQ1, KIR2DL2, NOL3, ATP6V0E1, SELENBP1, USP13, KLKB1, CDK5R2, RAB29, MBD2, KIF11, TMEM11, ENDOU, EIF2S2, TAX1BP1, NAE1, KRT14, KRT18, LAMC1, LBR, PROM1, LCAT, SOCS2, PRKRA, DEGS1, DDX39B, PABPN1, EOMES, BAP1, LTF, H4C9, COLQ, DYSF, CHAF1B, LYN, NRIP1, COIL, SLC7A5, AD5, H4C1, FGF23, ADAM12, BRD3, PSCA, ARHGEF5, TFPI2, FZD3, GHS, M6PR, MARCKS, SMAD1, LTC4S, H4C4, BHLHE40, IRS4, MAPKAPK5, LMO4, LOXL1, CST7, DDO, DGKZ, GAS7, PIK3R3, PKP4, PPFIA1, LRPAP1, SORBS2, H4C6, CUL4A, GNPAT, LTB, H4C14, H4C13, H4C5, H4C2, H4C8, H4C3, H4C11, H4C12, TERF1, MUC4, KCNMA1, TDO2, PCP4, CDK18, RBM3, RBL2, RBBP6, RB1, RASGRF1, RASA1, RARRES2, RAN, RAF1, RAD52, PCYT1A, RAD23B, RAC2, PDB1, RAB27B, RAB27A, PDC, PDE2A, PURA, PDGFB, ENPP2, PDYN, PTPN13, PC, PAX6, PARN, RPL15, P2RX1, S100A8, P2RX3, P2RX5, P2RY4, RREB1, RPS23, RPS21, RPS6KB2, P2RY6, RPS3A, RPL13, RET, RPA1, PAFAH1B2, RORA, ROM1, SNORD15A, BRD2, RNASE1, RHO, RHD, PAK3, TRIM27, PTPN11, PENK, PTN, PMM2, PLAUR, PLCL1, PLEK, PRKCE, PRKCD, PLP1, PRKAR1B, PRKACB, PRKACA, PLXNB1, PML, PRG2, PLAT, PMP22, PRB1, PPT1, PPP2R5E, POLG, PPP2R1A, PPP1CB, PPL, PPIC, PPIB, POR, MAP2K3, PLAG1, PFDN5, PSMD2, PFKFB3, PTGER2, PTGER1, PGD, PTGDR, PTCH1, PGR, PHB, PSMD9, PSMD7, PSMD3, PSMB2, PITX2, SERPINE2, SERPINI1, KLK10, PIK3C3, PIK3R1, KLK7, PIK3R2, PRS, PROS2P, PIN4, PROC, S100A10, OXT, OXA1L, SQLE, STAR, ST14, ST2, NDUFA6, SSTR3, SSTR2, NDUFA9, NDUFB8, SRM, SRF, NEDD4, SEPTIN2, STC1, SP4, NEU1, SOX5, SOX3, SOS2, SOS1, SOD3, NFE2L1, NFKB2, SNRPG, SNRNP70, NDUFA5, STIM1, NME1, MYH9, TRBV20OR9-2, TCP1, TCN2, MMUT, MUTYH, TCF4, ELOC, TBX2, MX1, MYH6, TARBP2, MAP3K7, STK11, MYO6, TACR2, NACA, VAMP2, VAMP1, SURF1, ABCC8, SUOX, NDP, STXBP1, STX1A, NINJ2, NME2, SAA2, OMP, SFTPC, TRA2B, SRSF6, SRSF5, SRSF3, SRSF1, SFRP1, OCA2, MAP2K4, ODF1, SELE, OPA1, OAS3, CXCL11, CCL21, CCL20, CCL19, CCL8, CCL1, SCP2, SCN1A, ORM2, OSM, TSPAN31, OAT, SGSH, SUMO2, SLC8A3, SMPD2, SLN, SLIT3, SLC22A5, SLC22A2, NQO2, SLC18A1, SLC16A1, SLC12A3, SLC11A1, SLC10A2, SLC8A1, NUP98, SLC6A12, NPHP1, SLC6A1, SLC5A2, NRCAM, NRDC, SLC1A1, NRF1, PMEL, YBX1, NT5E, NAT8, SEMA5A, ESRRA, RAB31, MACF1, HEY2, BRD4, TRAM1, CBX5, ANGPTL2, OPN1MW, GRIP1, KCNH4, MSTN, GFER, GFRA1, SIRT5, COTL1, GFRA3, GHR, ZNF629, UBR4, GHSR, WASHC4, GLI1, NUP160, CLUH, GLI3, SCFD1, KCTD2, CLCF1, SEC14L2, NR5A1, SLC24A2, PRPF6, TFIP11, MAFF, EID1, RAB38, FSHR, TMEFF2, PLA2G15, SLC7A11, FTH1, SNHG1, TSPAN15, GAST, ACKR1, G6PD, GAB1, NTSR2, GABBR1, GAD2, GALNS, DDAH1, PADI4, GART, NBEAL2, GMPR, PLEKHM2, WDHD1, GPR39, CARD8, ARHGEF15, AAK1, SYNPO, GPX4, ECD, PARK7, KLF8, TREX1, WIF1, WDR45, ATF6, CORO1A, TBC1D8, SLC7A9, GRIA4, FAF1, GRIK4, RER1, GRM1, STMN2, RAPGEF4, ADRM1, MSRB2, RAB3GAP1, GNA12, ZNF423, ATG4B, UBXN4, RCOR1, SEPTIN8, STAB1, GNAI1, MAPK8IP3, GRAMD4, GNB3, NFASC, KIF1B, GOLGA2, GPER1, SETX, GOLGA4, PDZD2, SAMD4A, KDM1A, GPM6A, RAB21, GPR6, P2RX2, GPR20, SNW1, FRK, FBXO7, BRI3, SNX12, SOCS7, CD209, FABP6, TBX21, NOP53, FABP7, SLC2A8, UBQLN2, A1CF, PSAT1, FANCG, HOOK2, DELEC1, FASN, SNX8, NPC1L1, BLNK, MS4A2, FCGR1A, FCGR2A, MYLIP, SCG3, DROSHA, TMEM230, NOX4, PCA3, SPCS1, VRK3, ETFA, SLC25A37, TLR8, SLC22A17, ECSIT, CD320, EZH2, DNAJC27, CLEC1B, NT5C3A, MZB1, F2RL2, HP1BP3, F3, F9, IRAK4, SAR1B, UTP11, F13B, SH3GLB1, SIDT2, SHANK1, TRAT1, F11R, RGCC, TMEM176B, NOCT, FBXO2, NPTN, TPK1, VCX, GREM1, FKBP1AP2, FKBP1AP3, AGO1, SEZ6L2, FKBP1AP4, FGF21, CLDN17, NOC2L, SND1, FOXM1, EPC2, ATRNL1, LRP10, FLNB, FMR1, POU2F3, TXN2, FBXL2, FOLR1, FOLR2, FKBP1AP1, B3GAT1, IGHV1-68, TNFRSF21, FEB1, FES, FGF9, RABGEF1, PRPF19, FGF13, FGFR1, FGFR4, PDLIM3, RND1, KLHL20, COQ2, CACYBP, HCAR1, FHL2, VPS4A, IL37, GLS2, NAAA, CYTH4, DKK2, DKK3, BBC3, SDCBP2, GRM3, IL24, SPAG9, CXCL2, PCLAF, IGFBP1, ACAP1, IGFBP5, SART3, KDM4A, IGHG3, SDC3, SH3PXD2A, RGS6, SNCAIP, TCL1B, IL4R, IL7, BCAR1, CCL4L2, CXCR1, BAG2, IL12B, BAG5, TMEM59, TBPL1, GAL3ST1, AKAP5, STX8, PIEZO1, BMS1, PTDSS1, IDH1, SH2D3C, GNE, SH2B3, IRF8, SRA1, TANK, KCNE3, HNRNPDL, CCS, NUP153, MED12, HS3ST1, TOMM20, RBM8A, IDH2, CFI, SV2B, TECPR2, IFI27, TOMM70, KIAA0319, IFIT3, IFNAR1, IGBP1, INSRR, PCYT1B, IL27RA, CCNE2, NOLC1, TIAF1, JUND, ZMYM3, KCNC4, KCNJ13, HGS, SYNGR3, ATG12, CBFA2T2, RABEP1, P2RX6, RAB11B, SLC16A3, SLC16A4, ATP6V0D1, RGN, USP10, USP2, USP14, DNAJA3, CLDN1, CLDN8, ARTN, JUNB, GPR50, PICK1, ITPKB, IRAK1, HOMER2, IREB2, IRF3, IRF6, IRF7, ITGAV, CYP7B1, ITGB3, NRXN1, SLC22A8, ITPR2, AIMP1, JAG2, ITGBL1, LHX2, SLIT2, TAOK2, CD163, JAK2, GPR37L1, PIWIL1, MAPKAPK2, PDLIM7, IARS1, TNC, IL18BP, CCT2, HCK, NRG3, USP39, DCTN6, CD226, HDC, HDLBP, CAMKK2, HIP1, TXNRD2, NPC2, SLC35A1, HBG2, PRDX4, ZNRD2, HYOU1, HLA-DQA1, SEMA4D, HLA-DQB1, NXF1, HLA-DRA, ATP5PD, COG5, GPNMB, CHL1, HAS3, FAM3C, GYPA, GSK3A, COPS5, GSM1, GSTM2, EBNA1BP2, PRSS21, PRDX3, GSTZ1, GTS, GUSB, C1QL1, GYPB, HAS1, GYPC, CCL27, ALDH1L1, GYPE, HAGH, WASF3, HSPH1, GJB6, HARS1, ARPP19, DHS, HLA-DRB4, HLA-G, PQBP1, MPHOSPH6, STAM2, GLYAT, HOXA@, RABEPK, HPCA, CALCOCO2, HRC, OLIG2, DDX39A, TOPORS, EIF1, HSD17B1, RAMP2, WASF2, HSD17B4, HSPA2, HSP90AB1, DNAJB1, NAMPT, BCAP31, CTDSP2, TSPAN3, ACTR2, CERT1, ABCC4, HNRNPK, HMBS, NPM3, CFDP1, PRMT5, HMGB2, YAP1, IFITM3, SPAG11B, PEMT, RACK1, SYCP2, TUBB4B, SEMA3A, WARS2, HNRNPC, FOXA1, CCL26, TLR6, FOXA2, LAMC3, LANCL1, HNF4A, TCIRG1, APBB3, APC2, HNRNPA2B1, MTCH2
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Angioedema Induced By Ace Inhibitors, Susceptibility To
OMIM
Clinical Features Blais et al. (1999) and Adam et al. (2002) reported significantly lower plasma aminopeptidase P (APP) activities in patients with a history of AEACEI. ... Measured genotype analysis strongly suggested that the linkage signal for APP activity at this locus was accounted for predominantly by the SNP association. ... There was a significant association between the -2399A allele and decreased serum APP activity in both men and women, but the APP activity was lower in men regardless of genotype. ... This haplotype was associated with decreased plasma APP activity and decreased luciferase gene expression compared to other haplotypes of these SNPs. Cilia La Corte et al. (2011) concluded that the ATG haplotype of XPNPEP2 is functional and contributes to the development of ACEi-angioedema through a reduction in APP activity.
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Alzheimer Disease 18
OMIM
Q170H and R181G mutant mice showed significant attenuation of APP processing compared to wildtype, with a decrease in APP-CTF-alpha levels and an increase in sAPP-beta levels, indicating that the mutations attenuated Adam10 alpha-secretase activity on APP. Crossing these Adam10 mutant mice with the Tg2576 AD mouse model showed that the Adam10 mutations increased amyloidogenic APP processing, as manifest by a shift from the alpha-secretase to the amyloidogenic beta-secretase pathway. ... Collectively, these findings suggested that diminished alpha-secretase activity of ADAM10 on APP resulting from mutations in the ADAM10 prodomain can cause AD-related pathology.
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Postural Orthostatic Tachycardia Syndrome Due To Net Deficiency
Orphanet
A rare, genetic, primary orthostatic disorder characterized by dizziness, palpitations, fatigue, blurred vision and tachycardia following postural change from a supine to an upright position, in the absence of hypotension. A syncope with transient cognitive impairment and dyspnea may also occur. The norepinephrine transporter deficiency leads to abnormal uptake and high plasma concentrations of norepinephrine.
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Party And Play
Wikipedia
These substances have been used for dancing, socializing, communal celebration and other purposes. [21] The rise of online websites and hookup apps in the 1990s gave men new ways of cruising and meeting sexual partners, including the ability to arrange private sexual gatherings in their homes. [22] From the early 2000s, historic venues of gay socialization such as bars, clubs, and dance events reduced in number in response to a range of factors, including gentrification, zoning laws, licensing restrictions, and the increased number of closeted or under the influence sexually labile men, and the increasing popularity of digital technologies for sexual and social purposes. [23] In this context, PNP emerged as an alternative form of sexualized partying that enabled participants to avoid the public scrutiny and potentially judgmental and anxiety provoking nature of the "public space". ... In some instances, PNP sessions play a part in the formation of loose social networks that are valued and relied upon by participants. [22] For other men, increasing reliance on hookup apps and websites to arrange sex may result in a sense of isolation that may exacerbate the risk of drug dependence, especially in the context of a lack of other venues for gay socializing and sexual community-formation. [23] A 2014 study found that one of the key reasons for taking drugs before and during sex was to boost sexual confidence and reduce feelings of self-doubt, regarding feelings of "internalised homophobia" from society, concerns about an HIV diagnosis, or "guilt related to having or desiring gay sex". A key self-confidence issue for study participants was "body image", a concern that was heightened by the focus on social networking apps on appearance, because on these apps, there is a focus on idealized male bodies that are "toned and muscular". ... 'Social media and drug markets', The internet and drug markets (European Monitoring Centre for Drugs and Drug Addiction: Insights 21), Publications Office of the European Union, Luxembourg. v t e Lesbian , gay , bisexual , and transgender ( LGBT ) slang List Ace Bareback Banjee Bear Beard Beat Bi-curious Boi Top, bottom and versatile Bottom surgery Breeder Bugchasing Bulldagger Butch Castro clone Chicken Chickenhawk Chub Chubby chaser Cottaging Cruising Daddy Down-low Drag Dyke En femme En homme Fag (Faggot) Fag hag Fag stag Faux queen F2M Femme Flagging (hanky code) Friend of Dorothy Fruit Fruit fly Gay-for-pay Gaydar Gaymer Genderfuck Gold star lesbian Glory hole Heteroflexibility Lesbian until graduation Lipstick lesbian M2F Non-op Packing Party and play Passing Poppers Post-op Pre-op Queen RLE Shemale Soft butch Scissoring SRS Stone butch Stealth Swish T Tea-room TERF Top surgery Trache shave Trade Tranny Transfan Transition Tribbing Troll Twink U-Haul lesbian Womyn-born womyn Related Polari LGBT linguistics Terminology of homosexuality Category v t e Methamphetamine Enantiomers Dextromethamphetamine Levomethamphetamine Neuropharmacology Biomolecular targets TAAR1 (agonist) σ1R (agonist) σ2R (agonist) α 2A adrenoceptor (agonist) α 2B adrenoceptor (agonist) α 2C adrenoceptor (agonist) MAO ( competitive inhibitor ) Inhibited transporters DAT NET SERT VMAT1 VMAT2 EAAT1 EAAT2 SLC22A3 SLC22A5 Health Amphetamine dependence Meth mouth Prenatal methamphetamine exposure History and culture Amphetamine Crystal Darkness Crystal Meth Anonymous Faces of Meth History and culture of amphetamines Montana Meth Project No More Sunsets Party and play Rolling meth lab Ya ba Law Legal status Combat Methamphetamine Epidemic Act of 2005 Comprehensive Methamphetamine Control Act of 1996 Illinois Methamphetamine Precursor Control Act Ethnicity and nationality United States Native Americans Australia v t e Sexual slang General Anilingus Banjee Bareback Baseball metaphors for sex Blue balls Bottom Camel toe Chickenhead Circle jerk Cock tease Cornhole Cougar Cunt Deep-throating Dick Dirty Sanchez Dogging Donkey punch Douche Felching Fuck Girlfriend experience Glory hole Hogging Hot Karl Italian profanity Latin profanity Mama-san Mammary intercourse Mat Mile high club Motherfucker Nookie Party and play Pearl necklace Pegging Pirate Pussy Quickie Red wings Rusty trombone Serosorting Shemale Slut Snowballing Soggy biscuit Switch Teabagging Tits Top Top, bottom and versatile Turkey slap Twat Voulez-vous coucher avec moi?
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Alzheimer Disease
OMIM
See also APP-related cerebral amyloid angiopathy (CAA; 605714), which shows overlapping clinical and neuropathologic features. ... Genetic analysis identified a mutation in the APP gene (V717I; 104760.0002). Farlow et al. (1994) reviewed the clinical characteristics of the disorder in the AD family reported by Murrell et al. (1991) in which affected members had a mutation in the APP gene (V717F; 104760.0003). ... Rovelet-Lecrux et al. (2006) estimated that in their whole cohort of 65 ADEOAD families, the frequency of the APP locus duplication was roughly 8% (5 of 65), which corresponds to half of the contribution of APP missense mutations to ADEOAD. ... Revesz et al. (2003) reviewed the pathology and genetics of APP-related CAA and discussed the different neuropathologic consequences of different APP mutations. ... Further studies indicated that suppression of PPARGC1A in hyperglycemia resulted in activation of the FOXO3A (602681) transcription factor, which inhibits nonamyloidogenic secretase processing of APP and promotes amyloidogenic processing of APP.TOMM40, TREM2, ABCA7, APP, APOE, PSEN2, PSEN1, MAPT, SORL1, PRNP, CASP3, BACE1, GSK3B, NCSTN, IDE, IL1B, HFE, A2M, ACE, DHCR24, BIN1, ESR1, ADAM10, ADAMTS1, PGRMC1, VEGFA, ARC, CYP46A1, SLC30A4, VSNL1, PICALM, HMOX1, HLA-DRB5, IGF1R, IGF1, INPP5D, IGF2, MPO, NPY, NOS3, PLAU, PLCG2, PPARG, RELN, MTHFR, PYY, NECTIN2, SLC2A4, IGF2R, SOD2, MAOB, TF, LEP, TFAM, INSR, INS, TNF, TPI1, EPHA1, F2, ENO1, CR1, CASS4, ATP5F1A, CLU, CHRNB2, CHRNA7, MIR766, CD33, IQCK, EIF2S1, MIR505, APOC1, CALM1, MIR100, MIR146A, BDNF, BCL2, MIR375, MIR296, BCHE, MIR708, TPP1, SLC30A6, SNAR-I, DPYSL2, ACHE, CD2AP, GAPDHS, PCDH11X, CYP2D6, MIR4467, CRH, MIR3622B, BAX, AMFR, ABI3, CST3, MS4A4A, WWOX, BRCA2, FANCD2, TFF1, TAS2R64P, CTNNB1, SUCLA2, SNCA, CTSD, RNR2, NEFL, TAS2R62P, SOD1, ITPR3, ITPR2, ITPR1, FLAD1, PSENEN, TP53, CDK5R1, EIF2AK3, UBQLN1, ALG3, PIK3CG, PIK3CA, PIK3CD, SERPINA3, PIK3CB, DOCK3, APLP1, OGDH, CREB1, NOTCH1, CASP6, NGF, CCND1, FOS, DLX4, DLG4, DDIT3, RABGEF1, PEBP1, PYCARD, DAPK2, KCNIP3, CTSB, CSF2, CRMP1, CTSG, EHMT2, ENO2, ERBB4, TMED10, TERF2IP, PTK2B, FCN2, PTGES3, FGF2, ACKR1, DNM1L, SDC3, G6PD, GCHFR, ITM2B, CREBBP, MAP3K8, TRPM7, ADI1, MTCO2P12, UPK3B, ACTB, AKT1, AKT2, ANXA1, APBB1, DNLZ, STS, MIR34A, BRCA1, MIR137, C5AR1, DDR1, CAMK4, TMED10P1, MPEG1, C9orf72, ESCO1, CDCA5, PRRT2, MAP1LC3B, CAT, EHMT1, CNR2, SPPL2B, RAB9A, NRXN3, GFAP, SYNJ1, SERPINB5, CD99, MME, MNAT1, CCL2, RRAS, RPS27, RPS21, RAP1A, PYCR1, COX2, PTS, PTGS2, MTHFD1, MMUT, NCAM1, NFIA, NFIB, MAPK8, MAPK3, PRKCB, PRKCA, PPBP, MED1, NFIC, PPARA, NFIX, PKD1, NOTCH3, NRGN, MEOX2, MEF2A, SPRR2A, TTC3, GRIN2A, DENR, GRIN2B, RAB7A, LRP8, HPRT1, HSP90AA1, VIM, IDUA, UTRN, SUMO1, UBE2I, TTK, TPT1, SULT1E1, IL1A, IL6, IL12A, TSPAN6, TIE1, TGFB1, TG, KNG1, LAMC2, LGALS3, TERT, TERC, STIM1, H3P17
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Neuroendocrine Neoplasm Of Esophagus
Orphanet
A group of esophageal epithelial neoplasms characterized by neuroendocrine differentiation, comprising well-differentiated neuroendocrine tumors (NETs), poorly differentiated neuroendocrine carcinomas (NECs), and mixed neuroendocrine-non-neuroendocrine neoplasms, an umbrella category including mixed adenoneuroendocrine carcinoma. ... NECs may also arise in other parts of the esophagus. On endoscopy, NETs usually appear as small polypoid or nodular submucosal masses, while NECs are large, infiltrative, and ulcerated. Patients most commonly present with dysphagia, pain, weight loss, and sometimes melena. Metastatic NETs may be associated with carcinoid syndrome.
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Malaria
Wikipedia
The sporozoites are injected into the skin, in the saliva, when the mosquito takes a subsequent blood meal. [28] Only female mosquitoes feed on blood; male mosquitoes feed on plant nectar and do not transmit the disease. ... The mosquitoes remain on the wall until they fall down dead on the floor. Insecticide treated nets [ edit ] A mosquito net in use. Mosquito nets help keep mosquitoes away from people and reduce infection rates and transmission of malaria. Nets are not a perfect barrier and are often treated with an insecticide designed to kill the mosquito before it has time to find a way past the net. Insecticide-treated nets are estimated to be twice as effective as untreated nets and offer greater than 70% protection compared with no net. [73] Between 2000 and 2008, the use of ITNs saved the lives of an estimated 250,000 infants in Sub-Saharan Africa. [74] About 13% of households in Sub-Saharan countries owned ITNs in 2007 [75] and 31% of African households were estimated to own at least one ITN in 2008. ... That number increased to 20.3 million (18.5%) African children using ITNs in 2007, leaving 89.6 million children unprotected [76] and to 68% African children using mosquito nets in 2015. [77] Most nets are impregnated with pyrethroids , a class of insecticides with low toxicity .ICAM1, FCGR2B, HBB, CD36, NOS2, FCGR2A, TNF, CR1, G6PD, CRP, HP, ACKR1, GYPA, SLC4A1, GYPB, NCR3, TIRAP, GYPC, LTBR, CISH, IFNG, HMOX1, PKLR, ABO, ANK1, AQP4, ATP2B4, HBG2, CYTB, ENOSF1, MSMB, MST1, ZNF536, LINC00944, SMARCB1, DHODH, PDR, TREML4, ZNF804A, OR51F1, OR51B5, CDH13, PROCR, SPATA3, OR51N1P, DHFR, DDT, RECQL4, FAM155A, IGHG3, IL4, MMP26, IL6, IL10, TLR9, HLA-DRB1, CSMD1, HBE1, DNAJC5, TMPRSS13, KLHL3, HDGFL2, TLR4, ATAD1, LMLN, TENM3-AS1, MECP2, POMGNT2, MBL2, TFRC, TGFB1, MIF, HLA-B, HAMP, DHPS, SERPINA3, TLR2, IL1B, FOXP3, FHL5, ACOT7, POTEKP, POTEM, GEM, KIR3DL1, RN7SL263P, ACTG2, ACTG1, ACTB, ACTBL2, HBA2, CYP2B6, HSPA4, LSAMP, TRAP, FCGR3B, HSP90AA1, IL1A, LAMP3, CD81, OR10A4, CCL5, ABCB1, FAS, CD40LG, TEP1, CXCL8, IARS1, HLA-G, CTLA4, HBA1, INSRR, ANGPT2, TYMS, CFH, GSTP1, IFNAR1, AGT, GYPE, FCGR3A, TXN, IL13, HSPB3, APOE, MTCO2P12, ISYNA1, FCGR2C, FYB1, VDR, HLA-A, GSTM1, GSR, ATR, MBL3P, LAIR1, PNP, IL12B, MNAT1, IL1RN, CYP2D6, IGF1, CD55, ACHE, DECR1, COX2, IL3, CCL2, MAPK1, NLRP3, FBXW7, HAVCR2, THBD, VPS51, EMP1, ITGA2B, PTGS2, ANC, IL10RA, XPO1, VNN1, PLEK, UMPS, IL2, IL2RA, TPPP, VWF, ISG20, ADAMTS13, IRF1, IL7R, AIMP2, IL12RB1, CLEC11A, METAP2, CDK5R1, ING1, IL18R1, PGD, HAP1, H6PD, PRDX5, GRAP2, CXCL9, MMP9, MPO, TAP1, CCL4L2, COX1, EBI3, ITGAX, COX3, TLR6, CXCL11, MTHFR, NFKB2, NFYA, NOS1, TBC1D9, ORC1, MCF2, AKAP13, RNF19A, TLR7, NT5C3A, IRAK4, KIR2DS1, CCL4, KIR3DL2, ICOS, COQ2, PSIP1, PECAM1, TPT1, RNASE3, ARTN, TP53, POLDIP2, PDCD1, TLR1, AHSA1, UBL4A, AQP3, AGRP, H3C9P, CYP2C8, CYP2C19, GTF2H4, CRK, RNA18SN5, ANXA2, H3P37, CASP1, NANP, CCL4L1, MAPK14, CXCR3, GNAS, GLO1, FCN2, SMIM10L2B, FKBP4, CD27, FOXO3, RBM45, HM13, IL33, HK1, CCR5, IFNA13, IFNA1, H3P42, DNAJB1, CHIT1, CYP3A4, SMIM10L2A, EGF, CHI3L1, CAT, EPHA2, NSFL1C, ADRB2, MYMX, COX8A, GAPDH, ABCB6, NR1I3, TREML1, PUM3, FMN1, TICAM2, TRIM13, BMS1, FZD4, RABEPK, LANCL1, FUT9, TNFSF13B, DCTN6, CXCR6, ARL6IP5, MRGPRX1, ZNRD2, ASPM, KAT5, RAB7B, CIB1, SEMA3C, ARMH1, STING1, CFDP1, CPQ, MYLK4, DLC1, AKR1A1, PIEZO1, TMPRSS11D, HDAC9, CARTPT, DEFB4B, TIMELESS, SPHK1, TMED7-TICAM2, PSC, VNN2, PROM1, UPK3B, H3P23, H3P28, TNFRSF11A, TNFRSF18, TP63, PDXK, CNTNAP1, DHX16, STK24, H3P19, LOH19CR1, WASHC1, WASH6P, LPAR2, MIR146A, APOBEC3B, SPAG6, CLOCK, ATG5, MIR142, AIM2, ABCG2, PCSK9, MIR155, NCF1, PPIG, MIR29A, VN1R17P, GPR166P, CD163, MIR451A, CXADRP1, ARHGEF2, CERS1, SPINK5, MASP2, GEMIN4, ACD, TLR8, MPPE1, MCPH1, HSPA14, RNF34, TMED7, ARMC9, PPP1R2C, IL22, TRAF3IP2, A1CF, PDCD1LG2, SLC44A4, SGSM3, MCAT, HPGDS, B3GAT1, ROPN1L, PHGDH, RAB14, IL23A, ABCG4, IFIH1, CFC1, BTNL2, MARCHF1, POLE4, CMC2, TMED9, ACKR3, PDXP, RHOF, AICDA, POLD4, RBM25, TOLLIP, TREM1, LGR6, ADA2, BACH2, ERAP1, GOLPH3, PARS2, KRT88P, TRIM5, IL17RE, CHP1, GPR151, NRSN1, EIF5AL1, CD160, APCDD1, ERFE, OXER1, DNAJB1P1, DSTN, GPRC6A, CCNI, ADIRF, EBNA1BP2, TMED2, EHD1, RNPS1, HPSE, SEPTIN9, SCLT1, NT5C2, SLC25A21, LEO1, NLRP12, TIMD4, CDCA5, DBA2, CARD16, PTPMT1, CGAS, RAB39B, TADA1, MRGPRX3, MRGPRX4, PGLS, PANX1, SPO11, LPAR3, CBX5, POFUT2, SPPL3, NBEAL2, LUC7L, PTPRC, FGF23, EIF5, FLT3LG, FLT1, FECH, FBN2, FBN1, FANCD2, F3, EPO, ENO2, ADGRE1, ELK4, ELF4, EIF5A, EIF4G2, CXADR, EGR3, EDNRA, EDN1, S1PR3, RCAN1, ATN1, DNMT1, DEFB4A, DHX9, ACE, DBP, CYP1A2, CYC1, GABPA, GCHFR, GDF1, GPR42, IL4R, IL1R1, IGFBP1, IFNGR1, IFNB1, IFNA2, IFI27, IDE, HTN3, HSPA9, HSD11B1, HRES1, HPRT1, HPR, HPGD, HMGB1, HLA-DOA, UBE2K, HGF, SERPIND1, HBG1, GTF3A, GSTT1, GSN, GPX1, GPT, GRK5, CYBB, CTSL, IL9, ANXA1, C3, BSG, BRS3, BRCA2, PRDM1, BCL2, BAX, ASPA, ASIP, ARR3, NUDT2, ANXA7, ANXA4, ANPEP, CSH2, AMBP, ALOX5, ALB, AHR, AFP, ADSL, ADRA2B, ADRA1A, ADORA2A, ADH1B, ADA, ACP1, ACACA, CAST, CASR, CD1B, CD1C, CSH1, CSF1R, CSF1, CS, CRYZ, CREM, CR2, CLDN4, CPB1, CNTF, CCR4, CLU, ERCC8, CTSC, CEL, CDC25C, CD69, CD68, CD40, ENTPD1, CD34, CD28, CD19, CD14, CD9, CD1E, CD1D, IL5, IL12A, FOSL1, SELE, SPTA1, SPP1, SPINK1, SPG7, SOD3, SOD1, SMN1, SLC16A1, SLC11A1, SLC6A7, SLC2A1, SGCG, SET, SEA, ABCA1, SDC1, CXCL5, CCL22, CCL18, CCL3L1, CCL3, CCL1, SAFB, SORT1, RPS19, RBP2, RANBP2, PEX19, SSR2, SSTR4, DENND2B, STAT6, DDX39B, PRRC2A, PFBI, RAB7A, CXCR4, MOGS, ZBTB16, TRPV1, VCP, USP1, TYRP1, TTR, TTPA, TRPC1, TRP-AGG2-5, TPO, TPH1, TNFRSF1B, TLR3, TGFB2, TRBV20OR9-2, TCN2, HNF1A, TADA2A, ADAM17, TAC1, STK3, PTPRH, PTHLH, IL15, KIR3DS1, MAL, MAF, LTB, LTA, LMAN1, LEPR, LDLR, LCN2, LBR, RPSA, LAG3, KRT13, KNG1, KIR2DS5, PSMD9, KIR2DL3, KIR2DL2, KDR, KCNG1, KARS1, ITPA, ITGB2, ITGAM, ITGAL, CXCL10, IDO1, ILF3, IL18, MAP2, MAP6, MEFV, MVD, PSMD7, PSMD2, PSMB9, PSEN1, PSAP, PRSS1, PROC, MAP2K1, PRKG1, PRKAR1A, PPP1R1A, PPARG, SEPTIN4, PLP1, PGM1, PGAM1, P2RX7, SLC22A18, TNFRSF11B, OMD, ODC1, NOS3, NQO2, NFE2L2, NEK2, MYD88, MYC, H3P5
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West Nile Fever
Wikipedia
Archived from the original on 18 October 2017 . Retrieved 28 October 2017 . ^ "Final Cumulative Maps and Data | West Nile Virus | CDC" . www.cdc.gov . 24 October 2017. Archived from the original on 27 October 2017 . Retrieved 28 October 2017 . ^ Gompf, Sandra. "West Nile Virus" . Medicine Net . MedicineNet Inc . Retrieved 15 January 2019 . ^ "Symptoms, Diagnosis, & Treatment" . ... Retrieved 2018-11-28 . ^ Tyler KL, Pape J, Goody RJ, Corkill M, Kleinschmidt-DeMasters BK (February 2006). ... PMID 21837806 . ^ a b "Prevention | West Nile Virus | CDC" . www.cdc.gov . 2018-09-24 . Retrieved 2018-11-28 . ^ American Academy of Pediatrics (8 August 2012).CCR5, ERVK-32, ROBO3, MAVS, DDX58, PLAAT4, IFIT2, ERVK-6, STAT1, SPP1, OAS1, IL1B, IFNB1, RNASEL, CASP8, HLA-DRB1, PELI1, SELENBP1, ARHGEF2, LRRFIP1, NAMPT, TRAIP, RIPK3, SEC14L2, CSF1R, LAMP3, ERVW-1, FOXP3, ZMYND10, DDX56, CCR7, VCP, CDKN2A, IFIH1, DHX58, ZBP1, HAVCR2, PIK3IP1, NLRP3, TNFRSF13C, TRIM6, RBM45, CCR2, ERVK-20, ERVK-18, VAMP8, TNFRSF1A, IFNA1, TNF, IFNA13, HLA-DQA1, IL1A, HLA-C, IL10, IL17A, IL18, IRF3, IRF5, KIR2DL2, KIR3DL1, KIR3DS1, LSAMP, CD180, SMAD4, MMP9, HLA-A, PIK3CA, PIK3CB, PIK3CD, PIK3CG, PZP, GLS, CASP1, SNCA, GEM, DDX3X, TAP1, TLR3, ATF4
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Estrogen And Neurodegenerative Diseases
Wikipedia
In addition, estrogen deprivation is likely to initiate or enhance degenerative changes caused by oxidative stress , and to reduce the brain's ability to maintain synaptic connectivity and cholinergic integrity leading to the cognitive decline seen in aged and disease-afflicted individuals. [5] There is sufficient evidence that estradiol is a powerful neuroprotectant which might have use against AD, stroke and Parkinson's disease both in women and men. [5] Estrogen and Alzheimer's disease [ edit ] This figure shows how APP cleavage produces toxic Abeta in Alzheimer's disease. Amyloid plaques formed by amyloid-β (Aβ) deposition and neurofibrillary tangles formed by tau protein phosphorylation are dominant physiological features of Alzheimer's disease. Amyloid precursor protein (APP) proteolysis is fundamental for production of Aβ peptides implicated in AD pathology. [6] By using a cell line that contains high levels of estrogen receptors, scientists found that treatment with physiological concentrations of 17 beta-estradiol is associated with accumulation in the conditioned medium of an amino-terminal cleavage product of APP (soluble APP or protease nexin-2), indicative of non-amyloidogenic processing. [7] Estrogen and Parkinson's disease [ edit ] Recommendations on the use of postmenopausal hormonal replacement therapy in women with Parkinson's disease or those genetically at risk. [8] But another group of scientists found a positive association between estrogen use and lower symptom severity in women with early PD not yet taking L-dopa . [9] Estrogen and Huntington's disease [ edit ] Huntington's disease (HD) is a polyglutamine disorder based on an expanded CAG triplet repeat [10] leading to cerebral and striatal neurodegeneration. [11] Potential sex differences concerning the age of onset and the course of the disease are poorly defined, as the difficulties of matching female and male HD patients regarding their CAG repeat lengths limit comparability. [12] Estrogen and Amyotrophic lateral sclerosis [ edit ] ALS occurs more commonly in men than in women, and women get the disease later in life compared to men. [13] This suggested the possible protective role of estrogen in ALS. ... "Estrogen and neurodegeneration". Neurochemistry Research . 28 (7): 1003–8. doi : 10.1023/A:1023246921127 . ^ Zhang, She-Qing; et al. ... "Octyl Gallate Markedly Promotes Anti-amyloidogenic Processing of APP through Estrogen Receptor-Mediated ADAM10 Activation" .