This is way easier to edit and upload than a simple video like we see on YouTube or Facebook.
YouTube allows you to customize the thumbnail and tags, but Coub does that for you and more. You can even embed your Coub page directly on your Facebook profile.
4. If you like YouTube, you'll love Google. YouTube is owned by Google. The same folks that own Youtube also own Google+. YouTube also allows you to upload your video to Google Drive, just like Google+. Coub is Google's answer to Youtube. You can upload your Coub video directly to Google Drive, and then share it with other Google+ users.
5. You can monetize your Coub video. This can be cool for your Youtube channel, or if you are uploading other people's work. You can make money from these YouTube videos. It can also be an excuse to make videos. You can easily create a Coub video and then show it to your family or friends and have them upload their video to Coub. This is sort of like the Daily Daily Video contest. You can create a basic video, and then have your friends and family upload their video to Coub and make it even cooler.
There are many more reasons to create a Coub. It's definitely one of the easiest ways to create a video loop. I created a Coub for this post and it's a simple loop that I can edit and post on YouTube, Facebook, Google+, and Coub.
In the future, Coub will add new features, but this is an awesome place to start and create your first loop.MicroRNA-17-5p-mediated DNMT1 downregulation induces cyclin D1 expression in the progression of oral squamous cell carcinoma.
In this study, we identified microRNA-17-5p (miR-17-5p) as a novel regulator of cell proliferation in oral squamous cell carcinoma (OSCC). The miR-17-5p level was remarkably decreased in OSCC cell lines compared with normal oral epithelial cell lines. Moreover, the proliferation of OSCC cells was significantly reduced by miR-17-5p mimics. On the other hand, the reintroduction of the endogenous miR-17-5p significantly promoted cell growth. Next, we showed that miR-17-5p inhibited cell proliferation by modulating the cyclin D1 expression through direct binding to the 3'-untranslated region
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