about
Next Generation Sequencing Technologies: The Doorway to the Unexplored Genomics of Non-Model PlantsIntegrating genetics and epigenetics in breast cancer: biological insights, experimental, computational methods and therapeutic potentialConsiderations for accurate gene expression measurement by reverse transcription quantitative PCR when analysing clinical samplesImpact of acute stress on antimicrobial polypeptides mRNA copy number in several tissues of marine sea bass (Dicentrarchus labrax)Effects of nanoporous anodic titanium oxide on human adipose derived stem cellsIdentification of novel and robust internal control genes from Volvariella volvacea that are suitable for RT-qPCR in filamentous fungiResearch resource: nuclear hormone receptor expression in the endocrine pancreasIdentification and Characterization of Reference Genes for Normalizing Expression Data from Red Swamp Crawfish Procambarus clarkii.Evaluation of Sorghum [Sorghum bicolor (L.)] Reference Genes in Various Tissues and under Abiotic Stress Conditions for Quantitative Real-Time PCR Data Normalization.Evaluation and validation of candidate endogenous control genes for real-time quantitative PCR studies of breast cancer.NMDA receptor subunit expression in GABAergic interneurons in the prefrontal cortex: application of laser microdissection technique.Evaluation of real-time PCR endogenous control genes for analysis of gene expression in bovine endometrium.Simultaneous digital quantification and fluorescence-based size characterization of massively parallel sequencing librariesSelective measurement of α smooth muscle actin: why β-actin can not be used as a housekeeping gene when tissue fibrosis occurs.Digital genomic quantification of tumor-infiltrating lymphocytes.Toxicity of Naphthalene and Benzene on Tribollium castaneum Herbst.The community dynamics of major bioleaching microorganisms during chalcopyrite leaching under the effect of organics.TFRC and ACTB as the best reference genes to quantify Urokinase Plasminogen Activator in breast cancerThe role of Drosophila Lamin C in muscle function and gene expressionInhibition of soluble TNF signaling in a mouse model of Alzheimer's disease prevents pre-plaque amyloid-associated neuropathology.Polymerase chain reaction.Hepatic entrapment of esterified cholesterol drives continual expansion of whole body sterol pool in lysosomal acid lipase-deficient miceMultiple mechanisms limit the accumulation of unesterified cholesterol in the small intestine of mice deficient in both ACAT2 and ABCA1.Strain prioritization for natural product discovery by a high-throughput real-time PCR method.Simulation of between repeat variability in real time PCR reactionsThe python project: a unique model for extending research opportunities to undergraduate students.Handheld real-time PCR device.Endothelial dysfunction in patients with chronic kidney disease results from advanced glycation end products (AGE)-mediated inhibition of endothelial nitric oxide synthase through RAGE activation.GM2/GD2 and GM3 gangliosides have no effect on cellular cholesterol pools or turnover in normal or NPC1 mice.Protein kinase D1 regulates ERα-positive breast cancer cell growth response to 17β-estradiol and contributes to poor prognosis in patientsIdentification of reference genes for qRT-PCR analysis in Yesso scallop Patinopecten yessoensis.Evaluation of digital PCR for absolute RNA quantification.Critical role of regulator G-protein signaling 10 (RGS10) in modulating macrophage M1/M2 activation.Co-detection of virulent Escherichia coli genes in surface water sourcesMolecular biology-based methods for quantification of bacteria in mixed culture: perspectives and limitations.Comparison of real-time PCR, reverse transcriptase real-time PCR, loop-mediated isothermal amplification, and the FDA conventional microbiological method for the detection of Salmonella spp. in produce.Splice variants and seasonal expression of buffalo HSF genes.Quantitative role of LAL, NPC2, and NPC1 in lysosomal cholesterol processing defined by genetic and pharmacological manipulations.Waterborne pathogens: detection methods and challenges.Evaluation of Suitable Internal Control Genes for RT-qPCR in Yak Mammary Tissue during the Lactation Cycle.
P2860
Q26770658-C369F853-06D5-400F-8281-B093748A2146Q26782613-14647F3F-FF07-478E-A0F2-3CB7369E7C89Q26863503-6541B69F-7AC8-4F0C-9CE1-5066675BE3BDQ28732218-7B0089AF-F37B-49C8-979F-764D174203C7Q28821452-DD7D53B2-43BC-479D-88E9-674ED354A6CFQ28830537-18350564-C915-4983-B610-A090CAD76DE5Q30438376-BA3A11E5-61F3-4A99-A20E-D51EDB258EA4Q30993598-97507BEF-D6F3-4EEB-B917-E3CA3B05D6FBQ31097578-7EC7B7D9-717E-49E2-9743-D269E3551D6EQ33307453-90D9AC90-7230-498D-B87E-751EECF96675Q33374928-96250F06-8A68-4D2C-BD43-E1D8A5C6F1A7Q33514147-565843A7-8492-4A16-A175-B95369C447C6Q33599067-EBBB51EA-E523-4A33-BCD3-339A201AC6EEQ33613035-92A1B480-8B2C-486A-875F-F309408D02EEQ33631158-1B29F5B2-23B0-4AD1-B486-6E7227E82E6BQ33840066-9E48B67A-D658-49E3-8BCD-0C5779AC26FEQ33921501-41759D40-5E8C-4134-BDC8-B3FB5D72D838Q33942462-FD3A6139-9244-4AA0-B64C-53F2A161DE83Q34080630-7AC22BEC-C4E2-4E73-B654-E70E76B6096CQ34169743-46CD6455-6339-45FF-82F3-027089F40221Q34327250-BBF7E2FA-2139-4347-B3E9-73CD40B9F78CQ34356070-A7ADD41E-3936-444B-BFA5-0E3A70DBEAA0Q34357426-6A3A8F42-7913-4B7F-8B95-D5DACA0B9146Q34400070-ED00DDEC-83E8-40B4-BB1B-8F585E6E7551Q34493659-FC3AA68B-E2E4-4253-AFEB-575AE18DA161Q34629509-4BFA5A60-03A1-458D-A27E-DF2394974434Q34675166-D1E96D8C-285A-44E5-B83E-E8E1FA133694Q34747124-C3FEDFA4-4F8D-41AD-A679-6AEF0275882CQ34769812-75966AD3-7ABA-4878-9697-F27C7A48F1FEQ34998421-3018CDA3-15FD-4D34-B8D4-6AACE496FC61Q34999688-B221D11F-C6E0-44BC-8C41-F217D4D253BBQ35000858-67EDFC8D-B22C-4D7C-9742-BD9DE7ED8F2CQ35054094-30601ECB-2F02-47C5-AD63-7AA67B15F755Q35058730-8691230F-7DD7-43CD-AC19-ABB05533103BQ35188107-0C27D414-68A0-48A6-99A2-1475901FBF9DQ35271833-96642232-6441-4C13-89D3-B4FB9DE681A4Q35529113-AAB16EF8-E8AB-47A7-8B09-1CDDE0397453Q35771137-52F22169-A22E-4DEA-92E5-3BA252790E45Q35824395-44B85020-CA6D-4075-8EDD-0AF415EF5BD7Q35903529-9FCF7F45-F565-47F6-B8BF-D6890AA1BA64
P2860
description
2005 nî lūn-bûn
@nan
2005 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
The power of real-time PCR.
@ast
The power of real-time PCR.
@en
The power of real-time PCR.
@nl
type
label
The power of real-time PCR.
@ast
The power of real-time PCR.
@en
The power of real-time PCR.
@nl
prefLabel
The power of real-time PCR.
@ast
The power of real-time PCR.
@en
The power of real-time PCR.
@nl
P2860
P356
P1476
The power of real-time PCR.
@en
P2093
Joyce J Repa
Mark A Valasek
P2860
P304
P356
10.1152/ADVAN.00019.2005
P577
2005-09-01T00:00:00Z