| Description | EnzymoPure™Q M-MLV Reverse Transcriptase uses single-stranded RNA or DNA in the presence of a primer to synthesize a complementary DNA strand with high fidelity, sensitivity, and specificity. It is a modified, optimized reverse transcriptase particularly suitable for qPCR analysis. The EnzymoPure™Q M-MLV Reverse Transcriptase uses single-stranded RNA or DNA in the presence of a primer to synthesize a complementary DNA strand with high fidelity, sensitivity, and specificity. It is a modified, optimized reverse transcriptase particularly suitable for qPCR analysis. The EnzymoPure™Q M-MLV Reverse Transcriptase contains RNase H enzyme activity that can specifically degrade the RNA strand of an RNA-DNA hybrid, enabling the subsequent synthesis of second-strand cDNA.EnzymoPure™Q M-MLV Reverse Transcriptase, a commonly used high-quality reverse transcriptase, is widely used in the synthesis of first-strand cDNA using total RNA or mRNA templates, and is particularly suitable for qPCR and one-step qRT-PCR analysis. This product is also applicable for conventional PCR, synthesis of second-strand cDNA and construction of cDNA library, and cloning of target genes. It can also be used for DNA probe labeling with fluorescence, biotin, digoxin, or isotope through reverse transcription reaction, or for RNA studies by primer extension.Please refer to Figure 1 for the qPCR analysis of the GADPH gene in HEK293T cells using the cDNA templates obtained by the EnzymoPure™Q M-MLV reverse transcriptase.Figure 1Source:Recombinant reverse transcriptase expressed in E. coli.Definition of enzyme activity unit: One unit is defined as the amount of enzyme that incorporates 1 nmol of dTTP into acid-precipitable material in 10min at 37℃ using poly(A)•oligo(dT)12-18 as template-primer. Reaction system: 50mM Tris-HCl (pH8.3), 75mM KCl, 3mM MgCl2, 10mM DTT, 0.5mM [3H]-dTTP, and 0.4mM polyA•oligo(dT)12-18.Purity: This product is free from DNA endonuclease, exonuclease, phosphatase, and RNase, and can meet the requirements of conventional reverse transcription.Storage buffer: 20mM Tris-HCl (pH7.5), 150mM NaCl, 0.1mM EDTA, 1mM DTT, 0.01%(v/v) NP-40, and 50%(v/v) glycerolInactivation or inhibition:RT Q M-MLV Reverse Transcriptase can be inactivated by incubation at 80℃ for 10 minutes, or inhibited by EDTA and EGTA chelators, inorganic phosphates or pyrophosphates, and polyamine.The concentration of M-MLV is 200U/µl. When 20µl of reverse transcription reaction volume is used, D7188S, D7188M, and D7188L are sufficient for 50, 250, and 1000 reactions, respectively. provides a variety of reverse transcriptase. To select the best one for your needs, please refer to the following webpage:http://www.aladdin-e.com/support/reversetranscriptase.htmPrecautions:Please refer to the instructions for reverse transcription of RNAs with high GC content.This product is for R&D only. Not for drug, household, or other uses.For your safety and health, please wear a lab coat and disposable gloves during the operation.Instructions for Use:1. First-strand cDNA synthesisa. Set up the following reaction on ice or at room temperature. RNase Inhibitor and dNTP mix can be purchased from SYBR Green qPCR Mix (2X), SYBR Green qPCR Mix (2X, Low ROX), and SYBR Green qPCR Mix (2X, High ROX) are for conventional qPCR analysis with SYBR Green fluorescent dye. Probe qPCR Mix (2X), Probe qPCR Mix (2X, Low ROX), and Probe qPCR Mix (2X, High ROX) are for qPCR analysis with Taqman Probe.b. Perform qPCR analysis following the instructions of the corresponding qPCR kit.3. For other applications such as primer extension and probe labeling, please refer to references related to M-MLV reverse transcriptase.FAQ:1. The reverse transcription product of total RNA is invisible after electrophoresis.It is a normal phenomenon, because the amount of RNA template is low, and the amount of reverse transcription products in different sizes is even lower. 2. No specific product is amplified from the reverse transcription product.a. To exclude the problem of PCR reaction system or reverse transcription product, use gene-specific primers to amplify internal reference genes, such as actin and GAPDH. If reference genes can be amplified, but not the target gene, it indicates primers of the target gene are not well designed. b. Template RNA may be degraded. The integrity of total RNA can be checked by agarose gel or on-chip electrophoresis. Intact total RNA exhibits sharp, clear 28S and 18S rRNA bands, and the 28S rRNA band should be approximately twice as intense as the 18S rRNA band. A ratio less than 2 indicates the degradation of total RNA and new total RNA should be prepared. c. RNA samples may contain some components that inhibit the activity of reverse transcriptase. Those contaminants include phenol, SDS, EDTA, guanidine salts, phosphoric acid, pyrophosphoric acid, polyamine, spermidine, etc, which can be removed effectively by column purification or precipitation, washing, and redissolution. Total RNA extracted by Zol or Trizol produced by can fully meet the requirements of reverse transcription.d. Insufficient templates for reverse transcription. When DNase I is used to remove the residual DNA in the RNA sample prior to reverse transcription and is subjected to heat-inactivation, EDTA should be added to the RNA sample at a final concentration of 2.5mM to protect RNA from degradation under high temperature. Additionally, to amplify a specific gene, it is necessary to extract RNA from tissues in which the target gene is highly expressed. e. An inappropriate primer is used for reverse transcription. Random hexamer instead of Oligo(dT)18 should be used for the reverse transcription of bacterial total RNA which does not have poly(A) tails. Gene-specific primers used for reverse transcription must be well-designed... Read More | Inquire | Purity> 97% (SDS-PAGE&HPLC)Endotoxin level<0.1 EU/µgFunctionProduced by macrophages, IFN-alpha have antiviral activities. Interferon stimulates the production of two enzymes: a protein kinase and an oligoadenylate synthetase | Purity: >95%, by SDS-PAGE visualized with Coomassie® Blue Staining. Description: Mesothelin (MSLN), also known as CAK1 and ERC, is a glycosylated cell-surface antigen present on normal mesothelial cells and over-expressed in several human tumors. The mesothelin gene encodes a ~70 kDa Purity: >95%, by SDS-PAGE visualized with Coomassie® Blue Staining. Description: Mesothelin (MSLN), also known as CAK1 and ERC, is a glycosylated cell-surface antigen present on normal mesothelial cells and over-expressed in several human tumors. The mesothelin gene encodes a ~70 kDa precursor protein that is cleaved at a dibasic proteolytic site into a 40 kDa membrane-bound protein termed MSLN and a 31 kDa shed fragment called megakaryocyte-potentiating factor (MPF) that is released from the cell. Cleaved, human MSLN remains attached to the cell surface via a GPI linkage and shares 58% amino acid sequence identity with mouse and rat MSLN. In human, alternate splicing generates additional MSLN isoforms that have either an eight amino acid insertion following Ser408 or a substituted C‑terminal region with no GPI anchor. Mesothelin is normally expressed on mesothelial cells in the pleura, pericardium, and peritoneum as well as in the developing and postnatal pancreas. It is up‑regulated in mesotheliomas and a range of carcinomas and adenomas. Mesothelin promotes tumor cell proliferation, migration, anchorage-independent growth, and tumor progression. It is co‑expressed with the tumor antigen CA125/MUC16 on advanced ovarian adenocarcinomas and interacts with this molecule to support cell adhesion. A soluble form of Mesothelin is released from tumor cells into the serum or tissue effusions... Read More | Purity:>95%, by SDS-PAGE visualized with Coomassie® Blue Staining. Description: 100B, previously called S100 beta, belongs to the S100 family within the EF-hand superfamily of Ca2+ binding proteins. S100 proteins contain two EF-hand motifs that differ in affinity, separated by a hingePurity:>95%, by SDS-PAGE visualized with Coomassie® Blue Staining. Description: 100B, previously called S100 beta, belongs to the S100 family within the EF-hand superfamily of Ca2+ binding proteins. S100 proteins contain two EF-hand motifs that differ in affinity, separated by a hinge region with a hydrophobic cleft that is exposed upon Ca2+ binding. S100B is a 91 amino acid (aa) protein, after removal of the initial methionine, and is found as homodimers of 10.4 kDa monomers. Human S100B shares 99%, 98%, 100%, 99% and 97% aa sequence identity with mouse, rat, rabbit, equine and bovine S100B, respectively. Within the S100 family, human S100B shows the highest aa identity (59%) with S100A1. S100B is expressed primarily by astrocytes and oligodendrocytes in the central nervous system, and by Schwann cells in the peripheral nervous system. Ca2+-bound S100B interacts in vitro with at least 20 cytoplasmic proteins, including several structural molecules such as tubulin and GFAP. It can inhibit the phosphorylation of these kinase substrates and others such as tau and neuromodulin. Astrocytes can secrete S100B, which then acts in a cytokine-like manner. Nanomolar concentrations of S100B are secreted constitutively, promote proliferation, and are neurotrophic and anti-apoptotic. Blood levels of S100B reflect extracellular concentrations within the nervous system, and are elevated in Down’s syndrome, Alzheimer’s disease and Tourette’s syndrome, metabolic stress, acute brain injury and brain tumors. Micromolar concentrations of S100B can be destructive and pro-apoptotic; they induce the expression of iNOS, COX-2, IL-1, IL‑6 and TNF-alpha by microglia, astrocytes or neurons. Most extracellular actions of S100B can be mediated by RAGE (receptor for advanced glycation end products), which is also a receptor for other S100 proteins... Read More |