+,GeneSilencer® Transfection Reagent GeneSilencer® Transfection Reagent siRNA Transfection Reagent, siRNA Gene Silencing 蚂蚁淘商城

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genlantis/GeneSilencer/kit (0.75 ml/500750

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genlantis/GeneSilencer/kit (0.75 ml/500750

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genlantis

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500750

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Description

Data

siRNA Design

Citations

High siRNA transfection efficiency
Functional gene silencing post siRNA delivery
Compatibility with diverse growth conditions (with and without serum)
Low cytotoxicity
Easy-to-use protocols for both adherent and suspension cells

GeneSilencer^® siRNA Transfection Reagent is a novel cationic lipid formulation specifically designed for efficient delivery of siRNAs (small interfering RNAs) into a wide variety of cell types. siRNAs are short, gene-specific double-stranded RNAs that can cause gene silencing in mammalian cells by catalytically cleaving greater than 95% of the target mRNA (1,2,3).

Contents

Hydrated GeneSilencer Lipid
siRNA Diluent (corresponding ratio for each kit)

Storage

GeneSilencer siRNA Transfection Reagent is shipped at room temperature, as similar to other gene therapy products. For maximum stability, store all reagents at 4篊 upon receipt. If stored properly, all components are stable for 6 months.

GeneSilencer Transfection Reagent Kit

50 rxn kit, 0.18 ml, T500020
200 rxn kit, 0.75 ml, T500750
1000 rxn kit, 5 x 0.75 ml, T505750
10 rxn sample kit, 0.03 ml, T500020S

New Citations

Long Noncoding RNA pancEts-1 Promotes Neuroblastoma Progression through hnRNPK-Mediated β-Catenin Stabilization.Li, D.,et al (2018) Cancer Res. 78 (5): 1169-1183. Link

Apoptotic cells trigger the ABCA1/STAT6 pathway leading to PPAR‐γ expression and activation in macrophages.Kim, M-J.,et al (2018) J. Leukocyte Biol. 103(5): 885-895. Link

Transient Silencing of DNA Repair Genes Improves Targeted Gene Integration in the Filamentous Fungus Trichoderma reesei.Chum, P.Y.,et al ((2017) Appl. Environ. Microbiol. 83(15): e00535-17. Link

Programming of macrophages by apoptotic cancer cells inhibits cancer progression through exosomal PTEN and PPARγ ligands.Kim, Y-B.,et al (2017) bioRxiv 217562: 1-75. Link

Role of Sphingosine Kinase 1 and S1P Transporter Spns2 in HGF-mediated Lamellipodia Formation in Lung Endothelium.Fu, P.,et al (2016) J. Biol. Chem. 291(53): 27187?27203. Link

Ubiquitin-specific Protease 20 Regulates the Reciprocal Functions of β-Arrestin2 in Toll-like Receptor 4-promoted Nuclear Factor κB (NFκB) Activation.Jean-Charles, P-Y., (2016) J. Biol. Chem. 291 (14): 7450 ?7464. Link

Tolerogenic nanoparticles inhibit T cell杕ediated autoimmunity through SOCS2.Yeste, A.,et al (2016) Sci. Signal. 9(433): RA61. Link

Synthesis of an Endogenous Steroidal Na Pump Inhibitor Marinobufagenin, Implicated in Human Cardiovascular Diseases, Is Initiated by CYP27A1 via Bile Acid Pathway.Fedorova, O.V.,et al (2015) Circ Cardiovasc Genet. 8(5): 736-45. Link

Thioredoxin Activates MKK4-NFκB Pathway in a Redox-dependent Manner to Control Manganese Superoxide Dismutase Gene Expression in Endothelial Cells.Kundumani-Sridharan, V.,et al (2015) J. Biol. Chem. 290(28): 17505?17519. Link

Identification, Mechanism of Action, and Antitumor Activity of a Small Molecule Inhibitor of Hippo, TGF-β, and Wnt Signaling Pathways.Basu, D.,et al (2014) Mol. Cancer Ther. 13(6): 1457-1467. Link

PKC Potentiates Tyrosine Kinase Inhibitors STI571 and Dasatinib Cytotoxic Effect.Tob蚾, A.,et al (2014) Anticancer Res. 34(7): 3347-3356. Link

TREK2 Expressed Selectively in IB4-Binding C-Fiber Nociceptors Hyperpolarizes Their Membrane Potentials and Limits Spontaneous Pain.Acosta, C.,et al (2014) J. Neurosci. 34(4): 1494-1509. Link

RhoA/Phosphatidylinositol 3-Kinase/Protein Kinase B/Mitogen-Activated Protein Kinase Signaling after Growth Arrest朣pecific Protein 6/Mer Receptor Tyrosine Kinase Engagement Promotes Epithelial Cell Growth and Wound Repair via Upregulation of Hepatocyte Growth Factor in Macrophages.Lee, Y-J.,et al (2014) J. Pharma. Exp. Thera. 350(3): 563-577. Link

GeneSilencer Cell Line Citations: 3T3-L1, A549, A7, AGS, ASM Transformed, B16-F1, BEL7404, Bronchial C166, C2C12, C6R, CHO-K1, DC2.4, GS-KB-3-1, H22, H441, H460, H9c2, hCMEC/D3, HCP40, HCT-116, HEK 293, HEK 293T, HEK-293, HeLa, HepG2, HL-60, HMEC-1, HPAEC, HT29, HUT-78, JAR, Jurkat, KATOIII, L/Stab-2, LNCaP, M2, McA-RH 7777, MCF-7, MDA MB-231, MDA MB-468, MDA-MB-435, MG63, MKN 28, MKN 45, MV-4-11, Neuro2a, NIH-3T3, OK, PC-12, Cortical Neurons, Hippocampal Neurons, Macrophage, Pulmonary Artery, Endothelium, Dendritic Cells(Bone Marrow), Cortical Neurons, Coronary Artery Endothelial, Peritoneal Macrophage, Dorsal Root Ganglion Neurons, Retinal Ganglion, Dorsal Root Ganglion, Schwann Cells Cardiac Fibroblast, Cardiac Myocytes (Neonatal), Lung Microvascular Endothelial Cells, Aortic Muscle Cells, Dendritic Cells, Cerebellar Neurons, Osteoblast, HMVEC, Cardiac Myocytes, T-Cells (CD3+), Cortical Neurons, Dendritic Cells, Cortical Neurons, Aveolar Type II Cells, Macrophage, Dorsal Root Ganglion Lacrimal Gland Acinar Cells, Bone Marrow, Dendritic Cells, Pulmonary Artery Endothelium, Primary HPAEC. RAW 264.7, Renca, SaOs2, Saos-2, SCCH196, SNB19, SW480, U20S

GeneSilencer^TM Reagent vs. siPORT^TM NeoFX^TM Reagent

HEK 293 Cells (click on images to enlarge)

Figure Legend: HEK 293 cells were transfected with 5, 10, 30 or 50 nM of Silencer FAM Labeled GAPDH siRNA with either GeneSilencer (Genlantis) or siPORT NeoFX (Ambion) siRNA transfection reagents according to the manufacturer"s recommended protocols. Cells were incubated for 48 hours then fixed, permeablized, and incubated with AlexaFluor 555 phalloidin (Invitrogen), which stains cellular actin red. Cells were then mounted on slides and stained with DAPI (Invitrogen), which stains the cell nuclei blue. Transfected cells were visualized by fluorescence microscopy using identical exposure times for FITC, TRITC, and DAPI. The transfected GAPDH siRNA is localized in the cell cytosol and can be seen as green fluorescent specks or dots.

HeLa S3 Cells (click on images to enlarge)

Figure Legend: HeLa S3 cells were transfected with 5, 10, 30 or 50 nM of Silencer FAM labeled GAPDH siRNA with either GeneSilencer (Genlantis) or siPORT&tm; NeoFX&tm; (Ambion) siRNA transfection reagents according to the manufacturer"s recommended protocols. Cells were incubated for 48 hours then fixed, permeablized, and incubated with AlexaFluor 555 phalloidin (Invitrogen), which stains cellular actin red. Cells were then mounted on slides and stained with DAPI (Invitrogen), which stains the cell nuclei blue. Transfected cells were visualized by fluorescence microscopy using identical exposure times for FITC, TRITC, and DAPI. The transfected GAPDH siRNA is localized in the cell cytosol and can be seen as green fluorescent specks or dots.

How to Design siRNA (Small Interfering RNA)

The sequence of the siRNA can be selected as follows:

1. Start 75-100 bases downstream from the start codon of your gene of interest.

2. Locate the first dimer.

3. Record the next 19 nucleotides following the AA dimer.

4. Calculate the percentage of G/C content of the AA-N19 21-base sequence. It must bebetween 30% and 70% with 50% being ideal. If the sequence does not meet the criteria,the search continues downstream to the next dimer until this condition is met.

5. The 21-base sequence is subjected to a BLAST-search (NCBI database) against ESTlibraries of your organism to ensure that no other gene(s) is targeted. (The complement isautomatically searched as well.)

6. If the conditions in either step 4 or 5 are not met, repeat steps 2 - 5.

The sequence selection process has no other constraints. It is important to note that structure within thetargeted mRNA appears to have minimal effect on the availability of the mRNA target and efficacy of thesiRNA silencing approach. To-date, successful silencing has been achieved using the above method toselect the target sequence, although the method is essentially random with respect to accounting for mRNAstructure.Although siRNA silencing appears to be extremely effective by selecting a single target in the mRNA, itmay be desirable to design and employ two independent siRNA duplexes to control for specificity of thesilencing effect. This recommendation is only for specificity for it is yet unknown if the targeting of a geneby two different siRNA duplexes would be more effective than using a single siRNA duplex. It is believedthat the rate-limiting component of the siRNA effect is the availability of cellular nuclease components andnot mRNA target availability. Therefore, doubling the number of siRNA duplexes is not expected to doublethe rate or efficiency of silencing.If the selected siRNA duplex(es) do not function for silencing, the following steps are recommended. First,a search is conducted for sequencing errors in the gene and possible polymorphisms. Initial studies on thespecificity of target recognition by siRNA duplexes indicates that a single point mutation located in thepaired region of an siRNA duplex is sufficient to abolish target mRNA degradation. Second, a reexaminationis performed to confirm whether the cell line is from the expected species. Third, a secondand/or third target are selected and the corresponding siRNA duplexes prepared.

Cell Line	Cell Type	Source	Genlantis Product	Citation
3T3-L1	Embryo	Swiss Mouse	GeneSilencer siRNA Transfection Reagent	Mizuarai, S., Miki, S., Araki, H., Takahashi, K. and Kotani, H.(2005) Identification of Dicarboxylate Carrier Slc25a10 as Malate Transporter in de Novo Fatty Acid Synthesis. J. Biol. Chem.280(37): p. 32434-32441.
A549	Lung Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Ito, K., Yamamura, S., Essilfie-Quaye, S., Cosio, B., Ito, M., Barnes, P.J. and Adcock, I.M. (2006) Histone deacetylase 2-mediated deacetylation of the glucocorticoid receptor enables NFκB suppression. J. Exp. Med. 203(1): 7-13.
A549	Lung Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Stepulak, A., Sifringer, M., Rzeski, W., Endesfelder, S., Gratopp, A., Pohl, E.E., Bittigau, P., Hansen, H.H., Stryjecka-Zimmer, M., Turski, L. and Ikonomidou, C. (2005) NMDA antagonist inhibits the extracellular signal-regulated kinase pathway and suppresses cancer growth. Proc. Natl. Acad. Sci. 102: 15605 - 15610.
A7	Melanoma	Human	GeneSilencer siRNA Transfection Reagent	Scott, M.G.H., Pierotti, V., Storez, H., Lindberg, E., Thuret, A., Muntaner, O., Labbe-Jullie, C., Pitcher, J.A. and Marullo, S. (2006) Cooperative Regulation of Extracellular Signal-Regulated Kinase Activation and Cell Shape Change by Filamin A and β-Arrestins. Mol. & Cell Biol, 26: 3432-3445.
AGS	Gastric Epithelium	Human	GeneSilencer siRNA Transfection Reagent	Nagasako, T., Sugiyama, T., Mizushima, T., Miura, Y., Kato, M. and Asaka, M. (2003) Up-regulated Smad5 Mediates Apoptosis of Gastric Epithelial Cells Induced by Helicobacter pylori Infection. J. Biol. Chem.: 278: 4821 - 4825.
AGS	Gastric Epithelium	Human	GeneSilencer siRNA Transfection Reagent	Varro, A., Noble, P-J. M., Pritchard, D.M., Kennedy, S., Hart, C.A., Dimaline, R. and Dockray, G.J. (2004) Helicobacter pylori Induces Plasminogen Activator Inhibitor 2 in Gastric Epithelial Cells through Nuclear Factor-B and RhoA: Implications for Invasion and Apoptosis Cancer Res. 64: 1695 - 1702.
ASM Transformed	Airway Smooth Muscle Cells	Human	GeneSilencer siRNA Transfection Reagent	Tran, T., Ens-Blackie, K., Rector, E.S., Stelmack, G.L., McNeill, K.D., Tarone, G., Gerthoffer, W.T., Unruh, H. and Halayko, A.J. (2007) Laminin-binding Integrin α7 is Required for Contractile Phenotype Expression by Human Airway Myocyte. Am. J. Respir. Cell Mol. Biol. 37(6): 668-80.
B16-F1	Melanoma	Mouse	GeneSilencer siRNA Transfection Reagent	Bertling, E., Hotulainen, P., Mattila, P.K., Matilainen, T., Salminen, M., and Lappalainen, P. (2004) Cyclase-associated-protein 1 (CAP1) promotes cofilin-induced actin dynamics in mammalian nonmuscle cells. Mol. Biol. Cell 15 (5): p. 2324-2334.
B16-F1	Melanoma	Mouse	GeneSilencer siRNA Transfection Reagent	Hotulainen, P., Paunola, E., Vartiainen, M.K. and Lappalainen, P. (2005) Actin-depolymerizing Factor and Cofilin-1 Play Overlapping Roles in Promoting Rapid F-Actin Depolymerization in Mammalian Nonmuscle Cells. Mol. Biol. Cell. 16(2): p. 649-664.
BEL7404	Hepatoma	Human	GeneSilencer siRNA Transfection Reagent	Liang, X-J, Finkel, T., Shen, D-W, Yin, J-J, Aszalos, A. and Gottesman, M.M. (2008) SIRT1 Contributes in Part to Cisplatin Resistance in Cancer Cells by Altering Mitochondrial Metabolism. Mol Cancer Res 6(9): 1499-506.
Bronchial	Smooth Muscle	Human	GeneSilencer siRNA Transfection Reagent	Nunes, R.O., Schmidt, M., Dueck, G., Baarsma, H., Halayko, A.J., Kerstjens, H.A.M., Meurs, H. and Gosens, R. (2008) GSK-3/β-catenin signaling axis in airway smooth muscle: role in mitogenic signaling Am J Physiol Lung Cell Mol Physiol. 294: L1110 - L1118.
C166	Yolk Sack Endothelium	Mouse	GeneSilencer siRNA Transfection Reagent	Zhou, X., Stuart, A., Dettin, L.E., Rodriguez, G., Hoel, B. and Gallicano G.I. (2004) Desmoplakin is required for microvascular tube formation in culture. J. Cell Sci. 117: 3129-3140.
C2C12	Myoblast	Mouse	GeneSilencer siRNA Transfection Reagent	Evangelisti, C., Tazzari, P.L., Riccio, M., Fiume, R., Hozumi, Y., Fala, F., Goto, K.., Manzoli, L., Cocco, L. and Martelli, A.M. (2007) Nuclear diacylglycerol kinase-ζ is a negative regulator of cell cycle progression in C2C12 mouse myoblasts. FASEB J. 21: 3297 - 3307
C6R	Glioma	Rat	GeneSilencer siRNA Transfection Reagent	Saarikangas, J., Hakanen, J., Mattila, P.K., Grumet, M., Salminen, M. and Lappalainen, P. (2008) ABBA regulates plasma-membrane and actin dynamics to promote radial glia extension. J Cell Sci. 121(Pt 9):1444-54.
CHO-K1	Ovary	Chinese Hamster	GeneSilencer siRNA Transfection Reagent	Kheifets, V., Bright, R., Inagaki, K., Schechtman, D. and Mochly-Rosen, D. (2006) Protein Kinase C δ PKC-Annexin V Interaction: a required step in δ PKC translocation and function. J. Biol. Chem. 281(32): p. 23218-23226.
DC2.4	Bone Marrow	Mouse	GeneSilencer siRNA Transfection Reagent	Jing, H., Yen, J-H and Ganea, D. (2004) A novel signaling pathway mediates the inhibition of CCL3/4 expression by PGE2. J. Biol. Chem. 279(53): p. 55176-55186.
GS-KB-3-1	Epidermoid Adenocarcinoma	Human	GeneSilencer siRNA Transfection Reagent	Liang, X-J, Finkel, T., Shen, D-W, Yin, J-J, Aszalos, A. and Gottesman, M.M. (2008) SIRT1 Contributes in Part to Cisplatin Resistance in Cancer Cells by Altering Mitochondrial Metabolism. Mol Cancer Res 6(9): 1499-506.
H22	Hepatoma	Mouse	GeneSilencer siRNA Transfection Reagent	Huang, B., Lei, Z., Zhang, G-M, Li, D., Song, C., Li, B., Liu, Y., Yuan, Y., Unkeless, J., Xiong, H. and Feng, Z-H (2008) SCF-mediated mast cell infiltration and activation exacerbate the inflammation and immunosuppression in tumor microenvironment. Blood 112(4): 1269-79.
H22	Hepatoma	Mouse	GeneSilencer siRNA Transfection Reagent	Huang, B., Zhao, J., Shen, S., Li, H., He, K-L, Shen, G-X, Mayer, L., Unkeless, J., Li, D., Yuan, Y., Zhang, G.-M., Xiong, H. and Feng, Z.-H. (2007) Listeria monocytogenes Promotes Tumor Growth via Tumor Cell Toll-Like Receptor 2 Signaling. Cancer Res. 67(9): p. 4346-4352.
H441	Lung Adenocarcinoma	Human	GeneSilencer siRNA Transfection Reagent	Zhang, Y-A., Nemunaitis, J., Samuel, S.K., Chen, P., Shen, Y. and Tong, A.W. (2006) Antitumor Activity of an Oncolytic Adenovirus-Delivered Oncogene Small Interfering RNA. Cancer Res. 66(19): 9736-9743.
H460	Lung Cancer	Human	GeneSilencer siRNA Transfection Reagent	Ren, J., Shi, M., Liu, R., Yang, Q-H., Johnson, T., Skarnes, W.C. and Du, C. (2005) The Birc6 (Bruce) gene regulates p53 and the mitochondrial pathway of apoptosis and is essential for mouse embryonic development. Proc. Natl. Acad. Sci. USA. 102(3): p. 565-570.
H9c2	Myoblast	Rat	GeneSilencer siRNA Transfection Reagent	Saotome, M., Safiulina, D., Szabadkai, G., Das, S., Fransson, A., Aspenstrom, P., Rizzuto, R. and Hajnoczky, G. (2008) Bidirectional Ca2+-dependent control of mitochondrial dynamics by the Miro GTPase. Proc Natl Acad Sci U S A 105(52): p. 20728.
hCMEC/D3	Brain Microvascular Endothelia	Human	GeneSilencer siRNA Transfection Reagent	Huang, W., Eum, S.Y., Andras, I.E., Hennig, B. and Toborek, M. (2009) PPAR{alpha} and PPAR{gamma} attenuate HIV-induced dysregulation of tight junction proteins by modulations of matrix metalloproteinase and proteasome activities. FASEB J 13 Jan 2009.
HCP40	Colon adenocarcinoma	null	GeneSilencer siRNA Transfection Reagent	Yao, K., Shida, S., Selvakumaran, M., Zimmerman, R., Simon, E., Schick, J., Haas, N.B., Balke, M., Ross, H., Johnson, S.W. and O"Dwyer, P.J. (2005) Macrophage Migration Inhibitory Factor Is a Determinant of Hypoxia-Induced Apoptosis in Colon Cancer Cell Lines. Clin Cancer Res. 11 (20): 7264 - 7272.
HCT-116	Colon Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Wang, J., Rajput, A., Kan, J.L.C., Rose, R., Liu, X., Kuropatwinski, K., Hauser, J., Beko, A., Dominquez, I., Sharratt, E.A., Brattain, L., LeVea, C., Sun, F., Keane, D.M., Gibson, N.W. and Michael G. Brattain (2009) Knockdown of Ron kinase inhibits mutant PI3 kinase and reduces metastasis in human colon carcinoma. J. Biol. Chem. 284 (16) 10912-10922.
HCT-116	Colon Adenocarcinoma	Human	GeneSilencer siRNA Transfection Reagent	Yao, K., Shida, S., Selvakumaran, M., Zimmerman, R., Simon, E., Schick, J., Haas, N.B. Balke, M., Ross, H., Johnson, S.W. and O"Dwyer, P.J. (2005) Macrophage Migration Inhibitory Factor Is a Determinant of Hypoxia-Induced Apoptosis in Colon Cancer Cell Lines. Clin. Can. Res. 11: 7264-7272.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Ahn, S., Nelson, C.D., Garrison, T.R., Miller, W.E. and Lefkowitz, R.J. (2003) Desensitization, internalization, and signaling functions of -arrestins demonstrated by RNA interference. Proc. Natl. Acad. Sci. 100: 1740 - 1744.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Ahn, S., Shenoy, S.K., Wei, H. and Lefkowitz, R.J. (2004) Differential Kinetic and Spatial Patterns of {beta}-Arrestin and G Protein-mediated ERK Activation by the Angiotensin II Receptor. J. Biol. Chem. 279 (34): 35518-35525.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Ahn, S., Wei, H., Garrison, T.R. and Lefkowitz, R.J. (2004) Reciprocal Regulation of Angiotensin Receptor-activated Extracellular Signal-regulated Kinases by (beta)-Arrestins 1 and 2. J. Biol. Chem. 279: 7807-7811.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Khundmiri, S.J., Dean, W.L., McLeish, K.R. and Lederer, E.D. (2005) Parathyroid Hormone-mediated Regulation of Na+-K+-ATPase Requires ERK-dependent Translocation of Protein Kinase C{alpha}. J. Biol. Chem. 280(10): p. 8705-8713.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Kim, J., Ahn, S., Ren, X-R., Whalen, E.J., Reiter, E., Wei, H. and Lefkowitz, R.J. (2005) Functional antagonism of different G protein-coupled receptor kinases for {beta}-arrestin-mediated angiotensin II receptor signaling. Proc. Natl. Acad. Sci.驴102: 1442 - 1447.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Kohout, T.A., Nicholas, S.L., Perry, S.J., Reinhart, G., Junger, S. and Struthers, R. (2004) Differential Desensitization, Receptor Phosphorylation, {beta}-Arrestin Recruitment, and ERK1/2 Activation by the Two Endogenous Ligands for the CC Chemokine Receptor 7. J. Biol. Chem. 279 (22): p. 23214-23222.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Liang, Y., Yu, W., Li, Y., Yan, X., Huang, Q. and Zhu, X. (2004) Nudel functions in membrane traffic mainly through association with Lis1 and cytoplasmic dynein. J. Cell Biol. 164 (4): 557-566.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Ren, X-R., Reiter, E., Ahn, S., Kim, J., Chen, W. and Lefkowitz, R.J. (2005) Different G protein-coupled receptor kinases govern G protein and {beta}-arrestin-mediated signaling of V2 vasopressin receptor. Proc. Natl. Acad. Sci. 102: 1448 - 1453.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Shenoy, S.K., Drake, M.T., Nelson, C.D., Houtz, D.A., Xiao, K., Madabushi, S., Reiter, E., Premont, R.T., Lichtarge, O. and Lefkowitz, R.J. (2006) {beta}-Arrestin-dependent, G Protein-independent ERK1/2 Activation by the {beta}2 Adrenergic Receptor. J. Biol. Chem. 281(2): 1261-1273.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Shikama, Y., Yamada, M., Miyashita, T. (2004) Caspase-8 and caspase-10 activate NF-B through RIP, NIK and IKK kinases. Eur. J. Immun. 33 (7): 1998-2006.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Wei, H., Ahn, S., Barnes, W.G. and Lefkowitz, R.J., (2004) Stable interaction between beta -arrestin2 and AT 1A receptor is required for beta -arrestin2 mediated activation of extracellular signal-regulated kinase 1 and 2. J. Biol. Chem. 279: 48255-48261.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Wei, H., Ahn, S., Shenoy, S.K., Karnik, S.S., Hunyady, L., Luttrell, L.M. and Lefkowitz, R.J. (2003) Independent -arrestin 2 and G protein-mediated pathways for angiotensin II activation of extracellular signal-regulated kinases 1 and 2. Proc. Natl. Acad. Sci. 100: 10782 - 10787.
HEK 293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Wu, J-H, Goswami, R., Kim, L.K., Miller, W.E., Peppel, K. and Freedman, N.J. (2005) The Platelet-derived Growth Factor Receptor-{beta} Phosphorylates and Activates G Protein-coupled Receptor Kinase-2: a Mechanism for Feedback Inhibition. J. Biol. Chem. 280(35): p. 31027-31035.
HEK 293T	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Wei, H., Ahn, S., Shenoy, S.K., Karnik, S.S., Hunyady, L., Luttrell, L.M. and Lefkowitz, R.J. (2003) Independent -arrestin 2 and G protein-mediated pathways for angiotensin II activation of extracellular signal-regulated kinases 1 and 2. Proc. Natl. Acad. Sci. 100: 10782 - 10787.
HEK-293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Ahn, S., Kim, J., Hara, M.R., Ren, X. and Lefkowitz, R.J. (2009) β -arrestin2 mediates anti-apoptotic signaling through regulation of bad phosphorylation. J Biol Chem 284(13): 8855-65.
HEK-293	Embryonic Fibroblast	Human	GeneSilencer siRNA Transfection Reagent	Barthet, G., Framery, B., Gaven, F., Pellissier, L., Reiter, E., Claeysen, S., Bockaert, J. and Dumuis, A. (2007) 5-Hydroxytryptamine 4 Receptor Activation of the Extracellular Signal-regulated Kinase Pathway Depends on Src Activation but Not on G Protein or beta-Arrestin Signaling. Mol. Biol. Cell. 18(6): 1979-1991.
HEk-293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	El-Shewy, H.M., Johnson, K.R., Lee, M-H, Jaffa, A.A., Obeid, L.M. and Luttrell, L.M. (2006) Insulin-like Growth Factors Mediate Heterotrimeric G Protein-dependent ERK1/2 Activation by Transactivating Sphingosine 1-Phosphate Receptors . J. Biol. Chem. 281(42): 31399-31407.
HEK-293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	El-Shewy, H.M., Lee, M-H., Obeid, L.M., Jaffa, A.A. and Luttrell, L.M. (2007) The Insulin-like Growth Factor Type 1 and Insulin-like Growth Factor Type 2/Mannose-6-phosphate Receptors Independently Regulate ERK1/2 Activity in HEK293 Cells. J. Biol. Chem. 282(36): 26150-26157.
HEK-293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Gesty-Palmer, D., Chen, M., Reiter, E., Ahn, S., Nelson, C.D., Wang, S., Eckhardt, A.E., Cowan, C.L., Spurney, R.F., Luttrell, L.M. and Lefkowitz, R.J. (2006) Distinct beta-Arrestin- and G Protein-dependent Pathways for Parathyroid Hormone Receptor-stimulated ERK1/2 Activation. J. Biol. Chem. 281(16): 10856-10864.
HEK-293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	IM Kim, DG Tilley, J Chen, NC Salazar, EJ Whalen, JD Violin, and HA Rockman (2008) Beta-blockers alprenolol and carvedilol stimulate beta-arrestin-mediated EGFR transactivation. Proc Natl Acad Sci 105(38): 14555-60.
HEK-293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Kani, S., Nakayama, E., Yoda, A., Onishi, N., Sougawa, N., Hazaka, Y., Umeda, T., Takeda, K., Ichijo, H., Hamada, Y. and Minami, Y. (2007) Chk2 kinase is required for methylglyoxal-induced G2/M cell-cycle checkpoint arrest: implication of cell-cycle checkpoint regulation in diabetic oxidative stress signaling. Genes Cells. 12(8): 919-928.
HEk-293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Kara, E., Crepieux, P., Gauthier, C., Martinat, N., Piketty, V., Guillou, F., and Reiter, E. (2006) A Phosphorylation Cluster of Five Serine and Threonine Residues in the C-Terminus of the Follicle-Stimulating Hormone Receptor Is Important for Desensitization But Not for β-Arrestin-Mediated ERK Activation. Mol. Endocrinol. 20(11): p. 3014-3026.
HEK-293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Nelson, C.D., Kovacs, J.J., Nobles, K.N., Whalen, E.J. and Lefkowitz, R.J. (2008) β-Arrestin Scaffolding of Phosphatidylinositol 4-Phosphate 5-Kinase Iα Promotes Agonist-stimulated Sequestration of the {beta}2-Adrenergic Receptor. J. Biol. Chem. 283(30): p. 21093-21101.
HEK-293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Noma, T., Lemaire, A., Prasad, S.V.N., Barki-Harrington, L., Tilley, D.G., Chen, J., Le Corvoisier, P., Violin, J.D., Wei, H., Lefkowitz, R.J. and Rockman, H.A. (2007) β-Arrestin mediated β1-adrenergic receptor transactivation of the EGFR confers cardioprotection. J. Clin. Invest. 117(9): p. 2445-2458.
HEk-293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Rajagopal, K., Whalen, E.J., Violin, J.D., Stiber, J.A., Rosenberg, P.B., Premont, R.T., Coffman, T.M., Rockman, H.A. and Lefkowitz, R.J. (2006) β-Arrestin2-mediated inotropic effects of the angiotensin II type 1A receptor in isolated cardiac myocytes. PNAS. 103: 16284 - 16289.
HEK-293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Shenoy, S.K., Xiao, K., Venkataramanan, V., Snyder, P.M., Freedman, N.J. and Weissman, A.M. (2008) NEDD4 mediates agonist-dependent ubiquitination, lysosomal targeting and degradation of the beta 2 adrenergic receptor. J. Biol. Chem. 283: 22166 - 22176.
HEK-293	Embryonic Kidney	Human	GeneSilencer siRNA Transfection Reagent	Violin, J.D., DeWire, S.M., Barnes, W.G. and Lefkowitz, R.J. (2006) G Protein-Coupled Receptor Kinase and β-arrestin mediated desensitization of the angiotensin II type 1A receptor elucidated by diacylgylcerol dynamics. J. Biol. Chem. 281: 36411 - 36419.
HeLa	Cervical Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Bentley, A.M., Normand, G., Hoyt, J. and King, R.W. (2007) Distinct Sequence Elements of Cyclin B1 Promote Localization to Chromatin, Centrosomes, and Kinetochores during Mitosis. Mol. Biol. Cell, Dec 2007; 18: 4847 - 4858.
HeLa	Cervical Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Cassimeris, L. and Morabito, J. (2004) TOGp, the Human Homolog of XMAP215/Dis1, Is Required for Centrosome Integrity, Spindle Pole Organization, and Bipolar Spindle Assembly. Mol. Biol. Cell 15 (4): 1580-1590.
HeLa	Cervical Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Chung, J-S., Sato, K., Dougherty, I.I., Cruz, Jr., P.D. and Ariizumi, K. (2007) DC-HIL is a negative regulator of T lymphocyte activation. Blood. 109(10): p. 4320-4327.
HeLa	Cervical Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Kheifets, V., Bright, R., Inagaki, K., Schechtman, D. and Mochly-Rosen, D. (2006) Protein Kinase C δ}PKC)-Annexin V Interaction: a required step in δ PKC translocation and function. J. Biol. Chem. 281(32): p. 23218-23226.
HeLa	Cervical Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Layzer, J.M., McCaffrey, A.P., Tanner, A.K., Huang, Zan, Kay, Mark A. and Sullenger, B.A. (2004) In vivo activity of nuclease-resistant siRNAs. RNA 10 (5): p. 766-771.
HeLa	Cervical Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Pomerening, J.R., Ubersax, J.A. and Ferrell, J.E., Jr. (2008) Rapid Cycling and Precocious Termination of G1 Phase in Cells Expressing CDK1AF. Mol. Biol. Cell, 19: 3426 - 3441.
HeLa	Cervical Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Shulga, N. and Pastorino, J.G. (2006) Acyl Coenzyme A-binding Protein Augments Bid-induced Mitochondrial Damage and Cell Death by Activating μ-Calpain. J. Biol. Chem. 281(41): 30824-30833.
HeLa	Cervical Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Witherow, D.S., Garrison, T.R., Miller, W.E. and Robert J. Lefkowitz (2004) {beta}-Arrestin inhibits NF-{kappa}B activity by means of its interaction with the NF-{kappa}B inhibitor I{kappa}B{alpha}. Proc. Natl. Acad. Sci. USA 101: 8603-8607.
HeLa	Cervical Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Yang, Q-H, Church-Hajduk, R., Ren, J., Newton, M.L. and Du, C. (2003) Omi/HtrA2 catalytic cleavage of inhibitor of apoptosis (IAP) irreversibly inactivates IAPs and facilitates caspase activity in apoptosis. Genes & Dev. 17: 1487 - 1496.
HeLa	Cervical Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Zhu, S., Wang, W., Clarke, D.C. and Liu, X. (2007) Activation of Mps1 Promotes Transforming Growth Factor-β-independent Smad Signaling. J. Biol Chem. 282 (25) 18327-18338.
HepG2	Hepatocellular Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Pastorino, J.G. and Shulga, N. (2008) TNFalpha can provoke cleavage and activation of sterol regulatory element binding protein in ethanol exposed cells via a caspase dependent pathway that is cholesterol-insensitive. J. Biol. Chem. 283: 25638 - 25649.
HL-60	Peripheral Blood Promyelocytic Leukemia	Human	GeneSilencer siRNA Transfection Reagent	Smirnova, I.V., Kajstura, M., Sawamura, T. and Goligorsky, M.S. (2004) Asymmetric dimethylarginine upregulates LOX-1 in activated macrophages: role in foam cell formation. AJP: Heart 287(2): p. H782-H790
HMEC-1	Human Microvascular Endothelial Cells	Human	GeneSilencer siRNA Transfection Reagent	Zhou, X., Stuart, A., Dettin, L.E., Rodriguez, G., Hoel, B. and Gallicano G.I. (2004) Desmoplakin is required for microvascular tube formation in culture. J. Cell Sci. 117: 3129-3140.
HPAEC	Pulmonary Artery Endothelium	Human	GeneSilencer siRNA Transfection Reagent	Berdyshev, E.V., Gorshkova, I., Skobeleva, A., Bittman, R., Lu, X., Dudek, S.M., Mirzapoiazova, T., Garcia, J.G.N. and Natarajan, V. (2009) FTY720 inhibits ceramide synthases and upregulates dihydrosphingosine-1-phosphate formation in human lung endothelial cells. J. Biol. Chem. 284 (9): 5467-5477.
HT29	Colon Adenocarcinoma	Human	GeneSilencer siRNA Transfection Reagent	Yao, K., Shida, S., Selvakumaran, M., Zimmerman, R., Simon, E., Schick, J., Haas, N.B. Balke, M., Ross, H., Johnson, S.W. and O"Dwyer, P.J. (2005) Macrophage Migration Inhibitory Factor Is a Determinant of Hypoxia-Induced Apoptosis in Colon Cancer Cell Lines. Clin. Can. Res. 11: 7264-7272.
HUT-78	T Cells	Human	GeneSilencer siRNA Transfection Reagent	Maneechotesuwan, K., Xin, Y., Ito, K., Jazrawi, E., Lee, K-Y., Usmani, O.S., Barnes, P.J. and Adcock, I.M. (2007) Regulation of Th2 Cytokine Genes by p38 MAPK-Mediated Phosphorylation of GATA-3. J. Immunol. 178(4): 2491-2498.
JAR	Choriocarcinoma	Human	GeneSilencer siRNA Transfection Reagent	Abboud-Jarrous, G., Atzmon, R., Peretz, T., Palermo, C., Gadea, B.B., Joyce, J.A. and Vlodavsky, I. (2008) Cathepsin L Is Responsible for Processing and Activation of Proheparanase through Multiple Cleavages of a Linker Segment. J. Biol. Chem. 283: 18167 - 18176.
Jurkat	T-Cell Lymphoma	Human	GeneSilencer siRNA Transfection Reagent	Nguyen, J.T. and Wells, J.A. (2003) Direct activation of the apoptosis machinery as a mechanism to target cancer cells. Proc. Natl. Acad. Sci. 100: 7533 7538.
KATOIII	Gastric Epithelium	Human	GeneSilencer siRNA Transfection Reagent	Nagasako, T., Sugiyama, T., Mizushima, T., Miura, Y., Kato, M. and Asaka, M. (2003) Up-regulated Smad5 Mediates Apoptosis of Gastric Epithelial Cells Induced by Helicobacter pylori Infection. J. Biol. Chem: 278: 4821 - 4825.
L/Stab-2	Fibroblast	Mouse	GeneSilencer siRNA Transfection Reagent	Park, S-Y., Kang, K-B., Thapa, N., Kim, S-Y., Lee, S-J. and Kim, I-S. (2008) Requirement of Adaptor Protein GULP during Stabilin-2-mediated Cell Corpse Engulfment. J. Biol. Chem. 283(16): 10593-10600.
LNCaP	Prostate Cancer	Human	GeneSilencer siRNA Transfection Reagent	Takayama, K., Tsutsumi, S., Suzuki, T., Horie-Inoue, K., Ikeda, K., Kaneshiro, K. Fujimura, T., Kumagai, J., Urano, T., Sakaki, Y., Shirahige, K., Sasano, H., Takahashi, S., Kitamura, T., Ouchi, Y., Aburatani, H. and Inoue, S. (2009) Amyloid precursor protein is a primary androgen target gene that promotes prostate cancer growth. Cancer Res 1 69(1): p. 137.
M2	Melanoma	Human	GeneSilencer siRNA Transfection Reagent	Scott, M.G.H., Pierotti, V., Storez, H., Lindberg, E., Thuret, A., Muntaner, O., Labbe-Jullie, C., Pitcher, J.A. and Marullo, S. (2006) Cooperative Regulation of Extracellular Signal-Regulated Kinase Activation and Cell Shape Change by Filamin A and β-Arrestins. Mol. & Cell Biol, 26: 3432-3445.
McA-RH 7777	Hepatoma	Rat	GeneSilencer siRNA Transfection Reagent	Pastorino, J.G. and Shulga, N. (2008) Tumor Necrosis Factor-{alpha} Can Provoke Cleavage and Activation of Sterol Regulatory Element-binding Protein in Ethanol-exposed Cells via a Caspase-dependent Pathway That Is Cholesterol Insensitive. J. Biol. Chem. 283: 25638 - 25649.
MCF-7	Breast Adenocarcinoma	Human	GeneSilencer siRNA Transfection Reagent	Ikeda, K., Ogawa, S., Tsukui, T., Horie-Inoue, K., Ouchi, Y., Kato, S., Muramatsu, M. and Inoue, S. (2004) Protein Phosphatase 5 Is a Negative Regulator of Estrogen Receptor-mediated Transcription. Mol. Endocrinol. 18(5): 1131-1143.
MDA MB-231	Breast Cancer	Human	GeneSilencer siRNA Transfection Reagent	Ge, L., Shenoy, S.K., Lefkowitz, R.J. and DeFea, K.A. (2004) Constitutive protease-activated-receptor-2 mediated migration of MDA MB-231 breast cancer cells requires both beta-arrestin-1 and 2. J. Biol. Chem. 279(53): p. 55419-55424.
MDA MB-468	Breast Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Ge, L., Shenoy, S.K., Lefkowitz, R.J. and DeFea, K.A. (2004) Constitutive protease-activated-receptor-2 mediated migration of MDA MB-231 breast cancer cells requires both beta-arrestin-1 and 2. J. Biol. Chem.279(53): p. 55419-55424.
MDA-MB-435	Melanoma	Human	GeneSilencer siRNA Transfection Reagent	Abboud-Jarrous, G., Atzmon, R., Peretz, T., Palermo, C., Gadea, B.B., Joyce, J.A.and Vlodavsky, I. (2008) Cathepsin L Is Responsible for Processing and Activation of Proheparanase through Multiple Cleavages of a Linker Segment. J. Biol. Chem. 283: 18167 - 18176.
MDA-MB-468	Breast Carcinoma	Human	GeneSilencer siRNA Transfection Reagent	Zoudilova, M., Kumar, P., Ge, L., Wang, P., Bokoch, G. M. and DeFea, K. A. (2007) β-arrestin-dependent regulation of the cofilin pathway downstream of protease-activated receptor-2. J. Biol. Chem. 282: 20634 - 20646.
MG63	Osteosarcoma	Human	GeneSilencer siRNA Transfection Reagent	Ichikawa, T., Horie-Inoue, K., Ikeda, K., Blumberg, B. and Inoue, S. (2007) Vitamin K2 induces phosphorylation of protein kinase A and expression of novel target genes in osteoblastic cells. J Mol Endocrinol 1 39 (4): 239.
MKN 28	Gastric Epithelium	Human	GeneSilencer siRNA Transfection Reagent	Nagasako, T., Sugiyama, T., Mizushima, T., Miura, Y., Kato, M. and Asaka, M. (2003) Up-regulated Smad5 Mediates Apoptosis of Gastric Epithelial Cells Induced by Helicobacter pylori Infection. J. Biol. Chem.: 278: 4821 - 4825.
MKN 45	Gastric Epithelium	Human	GeneSilencer siRNA Transfection Reagent	Nagasako, T., Sugiyama, T., Mizushima, T., Miura, Y., Kato, M. and Asaka, M. (2003) Up-regulated Smad5 Mediates Apoptosis of Gastric Epithelial Cells Induced by Helicobacter pylori Infection. J. Biol. Chem.: 278: 4821 - 4825.
MV-4-11	Biophenotypic B Myelomonocytic Leukemia	Human	GeneSilencer siRNA Transfection Reagent	Yang, X., Liu, L., Sternberg, D., Tang, L., Galinsky, I., DeAngelo, D. and Stone, R. (2005) The FLT3 Internal Tandem Duplication Mutation Prevents Apoptosis in Interleukin-3-Deprived BaF3 Cells Due to Protein Kinase A and Ribosomal S6 Kinase 1-Mediated BAD Phosphorylation at Serine 112. Cancer Res. 65(16): p. 7338-7347.
Neuro2a	Neuroblastoma	Mouse	GeneSilencer siRNA Transfection Reagent	Bertling, E., Hotulainen, P., Mattila, P.K., Matilainen, T., Salminen, M., and Lappalainen, P. (2004) Cyclase-associated-protein 1 (CAP1) promotes cofilin-induced actin dynamics in mammalian nonmuscle cells. Mol. Biol. Cell 15 (5): p. 2324-2334.
NIH-3T3	Fibroblast	Mouse	GeneSilencer siRNA Transfection Reagent	Bertling, E., Hotulainen, P., Mattila, P.K., Matilainen, T., Salminen, M., and Lappalainen, P. (2004) Cyclase-associated-protein 1 (CAP1) promotes cofilin-induced actin dynamics in mammalian nonmuscle cells. Mol. Biol. Cell 15 (5): 2324-2334.
NIH-3T3	Fibroblast	Mouse	GeneSilencer siRNA Transfection Reagent	Hotulainen, P., Paunola, E., Vartiainen, M.K. and Lappalainen, P. (2005) Actin-depolymerizing Factor and Cofilin-1 Play Overlapping Roles in Promoting Rapid F-Actin Depolymerization in Mammalian Nonmuscle Cells. Mol. Biol. Cell. 16(2): p. 649-664.
NIH-3T3	Fibroblast	Mouse	GeneSilencer siRNA Transfection Reagent	Nomachi, A., Nishita, M., Inaba, D., Enomoto, M., Hamasaki, M. and Minami, Y. (2008) Receptor Tyrosine Kinase Ror2 Mediates Wnt5a-induced Polarized Cell Migration by Activating c-Jun N-terminal Kinase via Actin-binding Protein Filamin A. J. Biol. Chem. 283(41): 27973-27981.
OK	Kidney	Opossum	GeneSilencer siRNA Transfection Reagent	Khundmiri, S.J., Ameen, M., Delamere, N.A. and Lederer, E.D. (2008) PTH-mediated regulation of Na+ -K+ -ATPase requires Src kinase-dependent ERK Phosphorylation. Am J Physiol Renal Physiol. 295(2): F426-F437.
OK	Kidney	Opossum	GeneSilencer siRNA Transfection Reagent	Khundmiri, S.J., Dean, W.L., McLeish, K.R. and Lederer, E.D. (2005) Parathyroid Hormone-mediated Regulation of Na+-K+-ATPase Requires ERK-dependent Translocation of Protein Kinase C{alpha}. J. Biol. Chem. 280(10): p. 8705-8713.
PC-12	Pheochromocytoma	Rat	GeneSilencer siRNA Transfection Reagent	de Barry, J., Janoshazi, A., Luc Dupont, J., Procksch, O., Chasserot-Golaz, S., Jeromin, A. and Vitale, N. (2006) Functional Implication of Neuronal Calcium Sensor-1 and Phosphoinositol 4-Kinase-β Interaction in Regulated Exocytosis of PC12 Cells. J. Biol Chem. 281(26): 18098-18111.
Primary	Cortical Neurons	Mouse	GeneSilencer siRNA Transfection Reagent	Aarts, M., Lihara, K., Wei, W-L, Xiong, Z-G, Arundine, M., Cerwinski, W., MacDonald, J.F., Tymianski, M. (2003) A Key Role for TRPM7 Channels in Anoxic Neuronal Death. Cell 115: 863.
Primary	Cortical Neurons	Mouse	GeneSilencer siRNA Transfection Reagent	Aleyasin, H., Cregan, S.P., Iyirhiaro, G., OHare, M.J., Callaghan, S.M., Slack, R.S. and Park, D.S. (2004) Nuclear Factor-B Modulates the p53 Response in Neurons Exposed to DNA Damage. J. Neurosci. 24 (12): 2963-2973.
Primary	Hippocampal Neurons	Rat	GeneSilencer siRNA Transfection Reagent	Amaral, M.D. and Pozzo-Miller, L. (2007) TRPC3 Channels Are Necessary for Brain-Derived Neurotrophic Factor to Activate a Nonselective Cationic Current and to Induce Dendritic Spine Formation. J. Neurosci. 27(19): p. 5179-5189.
Primary	Macrophage	Human	GeneSilencer siRNA Transfection Reagent	Asmis, R., Wang, Y., Xu, L., Kisgati, M., Begley, J.G. and驴Mieyal, J.J. (2005) A novel thiol oxidation-based mechanism for adriamycin-induced cell injury in human macrophages. FASEB J. published 13 September 2005, 10.1096/fj.04-2991fje.
Primary	Pulmonary Artery Endothelium	Human	GeneSilencer siRNA Transfection Reagent	Birukova, A.A., Chatchavalvanich, S., Rios, A., Kawkitinarong, K., Garcia, J.G.N. and Birukov, K.G. (2006) Differential Regulation of Pulmonary Endothelial Monolayer Integrity by Varying Degrees of Cyclic Stretch. Am. J. Pathol. 168: 1749 - 1761.
Primary	Cortical Neurons	Mouse	GeneSilencer siRNA Transfection Reagent	Burkhalter, J., Fiumelli, H., Erickson, J.D. and Martin, J-L. (2007) A critical role for system a amino acid transport in the regulation of dendritic development by BDNF. J Biol Chem 282: 5152 - 5159.
Primary	Dendritic Cells (Bone Marrow)	Mouse	GeneSilencer siRNA Transfection Reagent	Chung, J-S, Sato, K., Dougherty, I.I., Cruz, Jr., P.D. and Ariizumi, K. (2007) DC-HIL is a negative regulator of T lymphocyte activation. Blood. 109(10): p. 4320-4327.
Primary	Cortical Neurons	Mouse	GeneSilencer siRNA Transfection Reagent	Cui, H., Hayashi, A., Sun, H-S, Belmares, M.P., Cobey, C., Phan, T., Schweizer, J., Salter, M.W., Wang, Y.T., Tasker, R.A., Garman, D., Rabinowitz, J., Lu, P.S. and Tymianski, M. (2007) PDZ Protein Interactions Underlying NMDA Receptor-Mediated Excitotoxicity and Neuroprotection by PSD-95 Inhibitors. J. Neurosci. 27(37): 9901-9915.
Primary	Coronary Artery Endothelial	Human HCAEC	GeneSilencer siRNA Transfection Reagent	Dandapat, A., Hu, C., Sun, L. and Mehta, J.L. (2007) Small Concentrations of oxLDL Induce Capillary Tube Formation From Endothelial Cells via LOX-1 Dependent Redox-Sensitive Pathway. Arterioscler Thromb Vasc Biol.
Primary	Peritoneal Macrophage	Mouse	GeneSilencer siRNA Transfection Reagent	de Beer, M.C., Zhao, Z., Webb, N.R., van der Westhuyzen, D.R. and de Villiers, W.J.S. (2003) Lack of a direct role for macrosialin in oxidized LDL metabolism J. Lipid Res. 44: 674 - 685.
Primary	Dorsal Root Ganglion Neurons	Mouse	GeneSilencer siRNA Transfection Reagent	Haruhisa Higuchi, Toshihide Yamashita, Hideki Yoshikawa, and Masaya Tohyama (2003) Functional inhibition of the p75 receptor using a small interfering RNA. Biochem. & Biophys. Res. Comm. 301: 804809.
Primary	Retinal Ganglion	Rat	GeneSilencer siRNA Transfection Reagent	Hayashi, H., Campenot, R.B., Vance, D.E. and Vance, J.E. (2007) Apolipoprotein E-Containing Lipoproteins Protect Neurons from Apoptosis via a Signaling Pathway Involving Low-Density Lipoprotein Receptor-Related Protein-1. J. Neurosci. 27(8): 1933-1941.
Primary	Dorsal Root Ganglion	Rat	GeneSilencer siRNA Transfection Reagent	Hengst, U. Cox, L.J., Macosko, E.Z. and Jaffrey, S.R. (2006) Functional and Selective RNA Interference in Developing Axons and Growth Cones. J. Neurosci. 26(21): 5727-5732.
Primary	Schwann Cells	Mouse	GeneSilencer siRNA Transfection Reagent	Higuchi, H., Yamashita, T., Yoshikawa, H. and Tohyama, M. (2003) Functional inhibition of the p75 receptor using a small interfering RNA. Biochem. & Biophys. Res. Comm. 301: 804809.
Primary	Cardiac Fibroblast	Mouse	GeneSilencer siRNA Transfection Reagent	Hu, C., Dandapat, A., Sun, L., Khan, J.A., Liu, Y., Hermonat, P.L. and Mehta, J.L. (2008) Regulation of TGFbeta 1-mediated collagen formation by LOX-1: Studies based on forced over-expression of TGFbeta 1 in wild-type and LOX-1 knockout mice cardiac fibroblasts. J. Biol. Chem. 283 (16) 10226-10231.
Primary	Cardiac Myocytes (Neonatal)	Rat	GeneSilencer siRNA Transfection Reagent	Juhaszova, M., Zorov, D.B., Kim, S-H, Pepe, S., Fu, O., Fishbein, K.W., Ziman, B.D., Wang, S., Ytrehus, K., Antos, C.L., Olson, E.N. and Sollott, S.J. (2004) Glycogen synthase kinase-3{beta} mediates convergence of protection signaling to inhibit the mitochondrial permeability transition pore. J. Clin. Invest. 113(11): p. 1535-1549.
Primary	Lung Microvascular Endothelial Cells	Human	GeneSilencer siRNA Transfection Reagent	Kolosova, I.A., Ma, S-F, Adyshev, D.M., Wang, P., Ohba, M., Natarajan, V., Garcia, J.G.N. and Verin, A.D. (2004) Role of CPI-17 in the regulation of endothelial cytoskeleton AJP: Lung. 287(5): L970.
Primary	Aortic Muscle Cells	Rat	GeneSilencer siRNA Transfection Reagent	Lake, A.C. & Castellot, J.J. (2003) CCN5 modulates the antiproliferative effect of heparin and regulates cell motility in vascular smooth muscle cells. Cell Comm. & Signaling 1: 5.
Primary	Dendritic Cells	Mouse	GeneSilencer siRNA Transfection Reagent	Li, M., Qian, H., Ichim, T.E., Ge, W-W, Popov, I.A., Rycerz, K., Neu, J., White, D., Zhong, R., Min, W-P. (2004) Induction of RNA Interference in Dendritic Cells. Immunologic Research 30 (2) 215-230.
Primary	Dendritic Cells	Mouse	GeneSilencer siRNA Transfection Reagent	Li, M., Zhang, X., Zheng, X., Lian, D., Zhang, Z-X., Ge, W., Yang, J., Vladau, C., Suzuki, M., Chen, D., Zhong, R., Garcia, B., Jevnikar, A.M. and Min, W-P (2007) Immune Modulation and Tolerance Induction by RelB-Silenced Dendritic Cells through RNA Interference. J. Immunol. 178(9): p. 5480-5487.
Primary	Dendritic Cells	Mouse	GeneSilencer siRNA Transfection Reagent	Liu, G., Ng, H., Akasaki, Y., Yuan, X., Ehtesham, M., Yin, D., Black , K.L. and Yu, J.S. (2004) Small interference RNA modulation of IL-10 in human monocyte-derived dendritic cells enhances the Th1 response. Eur. J. Immunol. 34: 1680-1687.
Primary	Cerebellar Neurons	Rat	GeneSilencer siRNA Transfection Reagent	Numakawa, T., Nakayama, H., Suzuki, S., Kubo, T., Nara, F., Numakawa, Y., Yokomaku, D., Araki, T., Ishimoto, T., Ogura, A. and Taguchi, T. (2003) Nerve growth factor-induced glutamate release is via p75 receptor, ceramide and Ca2+ from ryanodine receptor in developing cerebellar neurons. J. Biol. Chem: 278: 41259-41269.
Primary	Osteoblast	Mouse	GeneSilencer siRNA Transfection Reagent	Ohyama, Y., Nifuji, A., Maeda, Y., Amagasa, T. and Noda, M. (2004) Spaciotemporal Association and Bone Morphogenetic Protein Regulation of Sclerostin and Osterix Expression during Embryonic Osteogenesis. Endocrinology. 145(10): p. 4685-4692.
Primary	HMVEC	Human	GeneSilencer siRNA Transfection Reagent	Radu Stefanescu, Dustin Bassett, Rozbeh Modarresi, Francisco Santiago, Mohamad Fakruddin, and Jeffrey Laurence (2008) Synergistic interactions between interferon-{gamma} and TRAIL modulate c-FLIP in endothelial cells, mediating their lineage-specific sensitivity to thrombotic thrombocytopenic purpura plasma-associated apoptosis. Blood 112: 340 - 349.
Primary	Cardiac Myocytes	Feline	GeneSilencer siRNA Transfection Reagent	Ramabadran, R. S., Chancey, A., Vallejo, J.G., Barger, P.M., Sivasubramanian, N. and Mann, D.L. (2008) Targeted Gene Silencing of Tumor Necrosis Factor Attenuates the Negative Inotropic Effects of Lipopolysaccharide in Isolated Contracting Cardiac Myocytes. Tex Heart Inst J. 35(1): 16-21.
Primary	T-Cells (CD3+)	Human	GeneSilencer siRNA Transfection Reagent	Samten, B., Howard, S.T., Weis, S.E., Wu, S., Shams, H., Townsend, J.C., Safi, H. and Barnes, P.F. (2005) Cyclic AMP Response Element-Binding Protein Positively Regulates Production of IFN-{gamma} by T Cells in Response to a Microbial Pathogen. J. Immunol. 174(10): p. 6357-6363.
Primary	Cortical Neurons	Mouse	GeneSilencer siRNA Transfection Reagent	Sato, S., Xu, J., Okuyama, S., Martinez, LB., Walsh, S.M, Jacobsen, M.T, Swan, R.J., Schlautman, J.D., Ciborowski, P. and Ikezu, T. (2008) Spatial learning impairment, enhanced CDK5/p35 activity, and downregulation of NMDA receptor expression in transgenic mice expressing tau-tubulin kinase 1. J Neurosci 28(53): 14511.
Primary	Dendritic Cells	Human	GeneSilencer siRNA Transfection Reagent	Smith, A.L., Ganesh, L., Leung, K., Jongstra-Bilen, J., Jongstra, J. and Nabel, G.J. (2007) Leukocyte-specific protein 1 interacts with DC-SIGN and mediates transport of HIV to the proteasome in dendritic cells. J. Exp. Med. 204(2): p. 421-430.
Primary	Cortical Neurons	Mouse	GeneSilencer siRNA Transfection Reagent	Supnet, C., Grant, J., Kong, H., Westaway, D. and Mayne, M. (2006) Amyloid β-(1-42) Increases Ryanodine Receptor-3 Expression and Function in TgCRND8 Mice. J. Biol. Chem. 281: 38440 - 38447.
Primary	Aveolar Type II Cells	Mouse	GeneSilencer siRNA Transfection Reagent	Ueno, T., Linder, S., Na, C-L, Rice, W.R., Johansson, J., and Weaver, T.E. (2004) Processing of Pulmonary Surfactant Protein B by Napsin and Cathepsin H. J. Biol. Chem. 279: 16178-16184.
Primary	Macrophage	Mouse	GeneSilencer siRNA Transfection Reagent	Wang, Y., Chen, T., Han, C., He, D., Liu, H., An, H., Cai, Z. and Cao, X. (2007) Lysosome-associated small Rab GTPase Rab7b negatively regulates TLR4 signaling in macrophages by promoting lysosomal degradation of TLR4. Blood 110: 962 - 971.
Primary	Dorsal Root Ganglion	Rat	GeneSilencer siRNA Transfection Reagent	Wu, K.Y., Hengst, U., Cox, L.J., Macosko, E.Z., Jeromin, A., Urquhart, E.R., and Jaffrey, S.R. (2005) Local translation of RhoA regulates growth cone collapse. Nature 436: 1020-1024.
Primary	Lacrimal Gland Acinar Cells	Rabbit	GeneSilencer siRNA Transfection Reagent	Xie, J., Chiang, L., Contreras, J., Wu, K., Garner, J.A., Medina-Kauwe, L. and Hamm-Alvarez, S.F. (2006) Novel Fiber-Dependent Entry Mechanism for Adenovirus Serotype 5 in Lacrimal Acini. J. Virol. 80(23): 11833 - 11851.
Primary	Bone Marrow	Mouse	GeneSilencer siRNA Transfection Reagent	Yang, R., Cai, Z., Zhang, Y., Yutzy IV, W.H., Roby, K.F. and Roden, R.B.S. (2006) CD80 in Immune Suppression by Mouse Ovarian Carcinoma驴Associated Gr-1+CD11b+ Myeloid Cells. Cancer Res 66 (13): 6807 - 6815.
Primary	Dendritic Cells	Mouse	GeneSilencer siRNA Transfection Reagent	Zheng, X., Koropatnick, J., Li, M., Zhang, X., Ling, F., Ren, X., Hao, X., Sun, H., Vladau, C., Franek, J.A., Feng, B., Urquhart, B.L., Zhong, R., Freeman, D.J., Garcia, B. and Min, W-P. (2006) Reinstalling Antitumor Immunity by Inhibiting Tumor-Derived Immunosuppressive Molecule IDO through RNA Interference. J. Immunol. 177(8): 5639-5646.
Primary	Pulmonary Artery Endothelium	Human	GeneSilencer siRNA Transfection Reagent	Zhuowei Li, Xhevahire Hyseni, Jacqueline D. Carter, Joleen M. Soukup, Lisa A. Dailey, and Yuh-Chin T. Huang (2006) Pollutant particles enhanced H2O2 production from NAD(P)H oxidase and mitochondria in human pulmonary artery endothelial cells. Am J Physiol Cell Physiol 291: C357 - C365.
Primary HPAEC	Pulmonary Artery Endothelium	Human	GeneSilencer siRNA Transfection Reagent	Rentsendorj, O., Mirzapoiazova, T., Adyshev, D., Servinsky, L.E., Renne, T., Verin, A.D. and Pearse, D.B. (2008) Role of vasodilator-stimulated phosphoprotein in cGMP-mediated protection of human pulmonary artery endothelial barrier function. Am J Physiol Lung Cell Mol Physiol. 294(4): L686 -L697.
RAW 264.7	Macrophage	Mouse	GeneSilencer siRNA Transfection Reagent	de Beer, M.C., Zhao, Z., Webb, N.R., van der Westhuyzen, D.R. and de Villiers, W.J.S. (2003) Lack of a direct role for macrosialin in oxidized LDL metabolism. J. Lipid Res. 44: 674 - 685.
RAW 264.7	Macrophage	Mouse	GeneSilencer siRNA Transfection Reagent	Liu, X., Yao, M., Li, N., Wang, C., Zheng, Y. and Cao, X. (2008) CaMKII promotes TLR-triggered proinflammatory cytokine and type I interferon production by directly binding and activating TAK1 and IRF3 in macrophages. Blood. 112(13): 4961-4970.
Renca	Renal Cell Carcinoma	Mouse	GeneSilencer siRNA Transfection Reagent	Ogushi, T., Takahashi, S., Takeuchi, T., Urano, T., Horie-Inoue, K., Kumagai, J., Kitamura, T., Ouchi, Y., Muramatsu, M. and Inoue, S. (2005) Estrogen Receptor-Binding Fragment-Associated Antigen 9 Is a Tumor-Promoting and Prognostic Factor for Renal Cell Carcinoma. Cancer Res. 65(9): p. 3700-3706.
SaOs2	Osteosarcoma	Human	GeneSilencer siRNA Transfection Reagent	Chu, F.,Chou, P.M., Zheng, X., Mirkin, B.L. and Rebbaa, A.驴(2005)驴Control of Multidrug Resistance Gene mdr1 and Cancer Resistance to Chemotherapy by the Longevity Gene sirt1. Cancer Res.65 (22): p. 10183-10187.
SaOS2	Osteosarcoma	Human	GeneSilencer siRNA Transfection Reagent	Zheng, X., Chu, F., Chou, P.M., Gallati, C., Dier, U., Mirkin, B.L., Mousa, S.A. and Rebbaa, A. (2009) Cathepsin L inhibition suppresses drug resistance in vitro and in vivo: a putative mechanism. Am J Physiol Cell Physiol. 296(1): C65-C74.
Saos-2	Osteosarcoma	Human	GeneSilencer siRNA Transfection Reagent	Zheng, X., Chou, P.M., Mirkin, B.L. and Rebbaa, A. (2004) Senescence-initiated Reversal of Drug Resistance: Specific Role of Cathepsin L. Cancer Res. 64: 1773 - 1780.
SCCH196	Sarcoma	Human	GeneSilencer siRNA Transfection Reagent	Takahashi, A., Higashino, F., Aoyagi, M., Yoshida, K., Itoh, M., Kyo, S., Ohno, T., Taira, T., Ariga, H., Nakajima, K., Hatta, M., Kobayashi, M., Sano, H., Kohgo, T. and Shindoh, M., (2003) EWS/ETS Fusions Activate Telomerase in Ewings Tumors. Cancer Res. 63: 8338-8344.
SNB19	Glioblastoma	Human	GeneSilencer siRNA Transfection Reagent	Song, S.W., Fuller, G.N., Zheng, H. and Zhang, W. (2005) Inactivation of the Invasion Inhibitory Gene IIp45 by Alternative Splicing in Gliomas. Cancer Res. 65(9): p. 3562-3567.
SW480	Colon Adenocarcinoma	Human	GeneSilencer siRNA Transfection Reagent	Zhu, S., Wang, W., Clarke, D.C. and Liu, X. (2007) Activation of Mps1 Promotes Transforming Growth Factor-β-independent Smad Signaling. J. Biol. Chem. 282(25): 18327-18338.
U20S	Osteosarcoma	Human	GeneSilencer siRNA Transfection Reagent	Hotulainen P. and Lappalainen, P. (2006) Stress fibers are generated by two distinct actin assembly mechanisms in motile cells J. Cell Biol. 173(3): 383-394.

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商品咨询

人体内有没有逆转录酶? 123

具区胜境2010-07-15

最近做了RT-realtimePCR。样品如下：1，阳性对照；2，不加RT酶，加模板；3，不加RT酶和模板，做RT-PCR后，再做realtimePCR（Taqman）。realtime的样品除以上3个RT产物，另加一个无RT产物的对照，共4个样品。结果所有的样品都跑出了CT值……请问可能是什么原因？

AMV,MMLV,SSⅢ三种逆转录酶哪有什么不同123

E澈烾2018-03-30

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TAKARA反转录酶4度能放多久
　　没有序列识别的功能，他就是简单的催化相邻DNA链的5-P末端和3'-OH末端以磷酸二酯键结合的反应，需ATP作辅酶。不仅可以催化粘性末端之间或平滑末端之间的DNA的连接，也催化DNA与RNA之间以及少数RNA之间的连接。
　　反转录酶（Reversetranscripatase）是以RNA为模板指导三磷酸脱氧核苷酸合成互补DNA（cDNA）的酶。哺乳类C型病毒的反转录酶和鼠类B型病毒的反转录酶都是一条多肽链。鸟类RNA病毒的反转录酶则由两上亚基结构。真核生物中也都分离出具有不同结构的反转录酶。

反转录酶MMLV使用说明(Promega)【吧】 123

wsuyio2021-08-13

反转录酶M-MLV说明书上写的37度，Promega的反转录酶42度，请问我可以用M-MLV42度吗？

反转录酶的注意事项123

灰太狼咳卫2352021-08-01

反转录酶
在进行RT反应之前，应考虑以下几个方面：
1、RNA
成功的cDNA合成来自高质量的RNA，高质量的RNA至少应保证全长并且不含逆转录酶的抑制剂，如EDTA或SDS。在提取RNA的过程中，要特别防止RNase的污染，同时在逆转录反应中经常加入RNase抑制剂以增加cDNA合成的长度和产量。RNase抑制剂要在第一链cDNA合成反应中，在缓冲液和还原剂（如DTT）存在的条件下加入，因为cDNA合成前的过程会使抑制剂变性，从而释放结合的可以降解RNA的RNase。蛋白RNase抑制剂仅防止RNaseA，B，C对RNA的降解，并不能防止皮肤上的RNase，因此尽管使用了这些抑制剂，也要小心不要从手指上引入RNase，实验过程中经常更换新手套。
2、引物的选择
OligodT
选择OligodT时，要求RNA必须有PolyA，所以真核生物的mRNA都适用。适合长链甚至全长mRNA的RT，所以对RNA样品的质量要求较高，最好不要有明显的DNA污染、RNA降解和RNA断裂。假如想探索新的mRNA进行RT反应，建议推荐使用OligodT引物。使用OligodT引物要比随机引物和特异性引物的稳定性要好。
随机引物
适合各种RNA的RT，尤其适合模板丰度很低的情况（比如某个gene表达量很低）。选择随机引物时，第一链cDNA合成反应中就是以所有的RNA为模板，然后进行PCR反应时设计引物进行特异性扩增。同时要注意随机引物的量和总RNA量之间的关系，一般建议每5μg总RNA的随机引物的用量为50ng，如果每5μg总RNA的随机引物的用量超过250ng，可能会导致小片段产物（<500bp）的增加和长片断、全长产物产物的降低。
特异性引物
特异性引物只能用你设计引物时的下游引物做RT，引物设计质量影响RT的结果，而且不同引物退火温度本来就不相同，所以按照说明书按照一个温度做不是最佳选择，一般不推荐。向左转|向右转

【求助】大家一般用什么RTPCR试剂盒或反转录酶? PCR技术讨论...123

vulgaris2021-07-23

想知道大家一般用的那个公司的产品，效果如何？

我用Trizol提取的植物叶片总RNA。
想要用两步法做RT,获得总的CDNA,再去PCR质体中的几个基因。
现在准备器材和试剂。但是网上关于RT-PCR的资料好像侧重原理操作比较多。对各个公司的试剂盒的特点不是很清楚。Invitrogen和Qiagen，Promega这些国外品牌都挺贵。而且相互之间差别挺大的。大家一般用的哪个公司的产品，效果如何？
单独买反转录酶来做效果如何?国内公司的酶效果怎么样？比如Tiangen的酶？
我并不用做定量的RT-PCR，主要目的是获得目的基因的cDNA序列，做一下RNAediting相关的工作。所以要求并不是很高。

反转录时所需的酶是反转录酶,那不需要DNA聚合酶吗？作业慧海网123

离开以后4642018-03-11

问题刁钻啊...... 　　原则说毕竟酶起催化作用所酶促反应都能自反应（能量要给）反面讲若没酶反应变慢（些酶加速5000倍）所些反应都变极慢相于没反应　　DNA复制连接没酶能半才连根磷酸二酯键能断掉细胞高度序集合根本没间让DNA悠闲自我复制说没酶现细胞序集合　　所我给结论：

反转录酶为什么以trna为引物123

2021-08-07

此酶需要RNA为引物，多为色氨酸的tRNA，在引物tRNA3′－末端以5′→3′方向合成DNA。反转录酶中不具有3′→5′外切酶活性，因此没有校正功能，所以由反转录酶催化合成的DNA出错率比较高[1]。

【求助】反转录后如果没有把酶灭活会怎么样核酸基因技术讨论版...123

shuixiao19852021-08-21

好多酶的试剂说明书上都要求反应结束后灭活，如fermentas的MLV就是写着，反应结束后70度10分钟灭活，如果反转完了没有这个灭活，直接放冰箱中储存备用，会怎么样？影响后面PCR的扩增吗？

什么是反转录123

江山八秀2021-07-21

也称逆转录，某些RNA病毒存在该过程，就是以RNA为模板反转录为DNA.该过程需要逆转录酶。望采纳。