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多囊性腎病PCR芯片 Polycystic Kidney Disease PCR Array

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多囊性腎病PCR芯片 Polycystic Kidney Disease PCR Array

多囊性腎病PCR芯片Polycystic Kidney Disease PCR Array
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(庫存 9999 件)
地區:上海
簡介:pcr芯片
提供商:上海英拜
服務名稱:pcr芯片
多囊性腎病PCR芯片可用于研究與導致終末期腎臟疾病的腎囊腫生長相關的84個基因的表達情況
 
ProductSpeciesTechnologyCat. No.
Polycystic Kidney Disease PCR ArrayHumanGene ExpressionPAHS-168Z
Polycystic Kidney Disease PCR ArrayMouseGene ExpressionPAMM-168Z
Polycystic Kidney Disease PCR ArrayRatGene ExpressionPARN-168Z

The Human Polycystic Kidney Disease RT2 Profiler PCR Array profiles the expression of 84 key genes involved in growth of renal cysts, which often lead to end-stage renal disease. Polycystic kidney diseases (PKDs) represent a large group of progressive renal disorders characterized by cystic expansion of the kidneys resulting in progressive kidney enlargement and renal insufficiency. The most common PKDs are inherited as either autosomal dominant or autosomal recessive traits. Studies of autosomal dominant and recessive PKDs converge on molecular mechanisms of cystogenesis, including ciliary abnormalities and intracellular calcium dysregulation that ultimately lead to increased proliferation, apoptosis, and dedifferentiation. Recent advances in understanding the role of signaling molecules, (such as cyclic AMP, calcium, integrins, and bone morphogenetic proteins), as well as angiogenic, differentiation, and mitogenic factors in renal cystogenesis and dysfunction have led to intriguing possibilities for therapeutic intervention. The genes profiled with this array are associated with angiogenic, mitogenic, and inflammatory responses and factors responsible for calcium signaling, primary cilia function, and transcriptional regulation among others. A set of controls present on each array enables data analysis using the ΔΔCT method of relative quantification and assessment of reverse transcription performance, genomic DNA contamination, and PCR performance. Using real-time PCR, research studies can easily and reliably analyze the expression of a focused panel of genes involved in polycystic kidney disease with this array.
Angiogenic Factors: EDN1, NRP2, TPM1, VEGFA, IL8.
Apoptosis: BCL2L1, DAPL1.
BMP/TGFb/Activin Signaling: BMP2, BMP4, BMP7, GREM1, NOG, WNT11.
Calcium Signaling: PKD1, PKD2, SLC26A7, SLC2A9, SLC5A10.
cAMP Signaling: ACY1, ADCY2, ADCY3, PTGER2, PTGER3, PTGS2, ADCY7, CREBBP, P2RX7.
Nephron Segment Differentiation: ANGPT2, APOE, APOM.
Integrin Signaling: CLDN10, CLU, COL12A1, COL3A1, FBLN1, FN1, PCDH7, RHOA, ITGA8, SPRY1.
Growth Factor-Receptor Interaction: EGR3, FGF1, FGFR3, IGF1R, NTRK3, TGFB3.
Immune/Inflammatory Pathways: CFD, CXCL1, CYP8B1, IL17D, IL6, KNG1, NRG1, PCK1, PRLR, PTPRZ1, IL8.
mTOR pathway: PIK3CA, PIK3R1.
Primary Cilia: CYS1, DNAH5, IFT88, LGALS3, PDGFRA, PKHD1, TMEM27, UMOD, GLI2.
Transcription Factors: FOSB, JUN, GLI2, WT1.
Other Genes: AGXT2, ALDH8A1, CLCNKA, DPEP1, HGD, HRG, HSD11B2, MIOX, NAPSA, OSR2, PRKCB, RET, SCN5A, VGLL3


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