Uplifting News
Welcome to /c/UpliftingNews, a dedicated space where optimism and positivity converge to bring you the most heartening and inspiring stories from around the world. We strive to curate and share content that lights up your day, invigorates your spirit, and inspires you to spread positivity in your own way. This is a sanctuary for those seeking a break from the incessant negativity often found in today's news cycle. From acts of everyday kindness to large-scale philanthropic efforts, from individual achievements to community triumphs, we bring you news that gives hope, fosters empathy, and strengthens the belief in humanity's capacity for good.
Here in /c/UpliftingNews, we uphold the values of respect, empathy, and inclusivity, fostering a supportive and vibrant community. We encourage you to share your positive news, comment, engage in uplifting conversations, and find solace in the goodness that exists around us. We are more than a news-sharing platform; we are a community built on the power of positivity and the collective desire for a more hopeful world. Remember, your small acts of kindness can be someone else's big ray of hope. Be part of the positivity revolution; share, uplift, inspire!
view the rest of the comments
Hold up. I thought there are different kinds of snake venom that cause separate types of chemical reactions. How can a universal antidote be made when the venoms target different stuff in a victim's body?
I did a quick read of the article, and it uses antibodies that target the venom rather than directly protecting the bodys cells.
Says that it would protect against snake bites from cobras and mambas, but not vipers. The technology existing however will make it a lot easier to find which antibodies work against viper venom.
The idea is that the antibody allows you immune system to attack the venom and destroy it before it does too much damage.