LnRiLWZpZWxke21hcmdpbi1ib3R0b206MC43NmVtfS50Yi1maWVsZC0tbGVmdHt0ZXh0LWFsaWduOmxlZnR9LnRiLWZpZWxkLS1jZW50ZXJ7dGV4dC1hbGlnbjpjZW50ZXJ9LnRiLWZpZWxkLS1yaWdodHt0ZXh0LWFsaWduOnJpZ2h0fS50Yi1maWVsZF9fc2t5cGVfcHJldmlld3twYWRkaW5nOjEwcHggMjBweDtib3JkZXItcmFkaXVzOjNweDtjb2xvcjojZmZmO2JhY2tncm91bmQ6IzAwYWZlZTtkaXNwbGF5OmlubGluZS1ibG9ja311bC5nbGlkZV9fc2xpZGVze21hcmdpbjowfQ==
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
Rat Mammary Gland, E17 Total RNA
0.05mg
Product Description
Sprague Dawley Rat mammary gland E17 Total RNA of pregnant rat is extracted from freshly harvested mammary gland using classical guanidine isothiocyanate–phenol: chloroform extraction method which allows the rapid isolation of total RNA including microRNAs. RNA is treated with RNase-free DNase-1 to remove residual DNA, precisely quantified by NanoDrop, and stored at -80oC.
Quality Control:
The integrity of each RNA sample as indicated by intact ribosomal RNA is verified by denatured agarose gel electrophoresis. The purity of RNA is assessed by spectrophotometer (A260/A280: 1.9-2.1). Residual DNA contamination is tested by PCR.
Applications:
RNA is ideal for Northern blotting, ribonuclease protection assay, SI nuclease assay, RT-PCR/Q-PCR/RACE analysis, cDNA synthesis, RNA differential display, microRNA studies, and purification of mRNA for library construction.
Packing/shipping:
Total RNA sample is routinely provided in RNase-free water at a concentration of 1mg/ml and shipped on dry ice for overnight delivery.
MSDS and Certificate of Analysis in PDF files: Contact Zyagen Technical Support at zinfo@zyagen.com