Whatever you guys do, just please be safe :*
FUCKING BLESS THIS SIGNAL BOOST REBLOG NOW! THIS IS SO NECESSARY
you can find this on my tagged/wizardmickeyls for future reference.. this is so damn important.
as someone who works a safety team at events I can promise you this is accurate and incredibly useful! Honesty is truly the best policy with this stuff when things go south
villains who switch sides due to personal convictions and not because they fell in love with a hero
villains who fall in love with a hero but refuse to switch sides due to personal convictions
villains who have feelings for heroes but aren’t willing to just ditch their life and everything they’ve worked for
sympathetic villains with goals and motivations other than heroic bonkybits
How to cover up tattoos!
- use a red lipstick covering the outlines
- pat on a light concealer, using a setting powder
- pat on your skin tone concealer, and clean up any mistakes using baby wipes to remove excess concealer
- use a fluffy brush and smooth it out with foundation powder.VIDEO TUTORIAL:
we don’t usually reblog/post cosplay stuff, but a friend pointed it out to me and i haven’t seen it elsewhere SO maybe it can help someone!
Useful for cosplay AND if you’re applying for a job that views tattoos as ‘unprofessional’.
Also good for hickeys
This just seems useful for any purpose so here you go
If the wizarding gene is dominant, as J.K. Rowling says in her famous series of Harry Potter books, then how can a wizard be born to muggle parents (non-magical people)? And how can there be squibs (non-magical people born into wizarding lines)?
It seems these baffling genetic questions have finally been answered, thanks to Andrea Klenotiz, a biology student at the University of Delaware.
In a six-page paper, which she sent to Rowling, Klenotiz outlines how the wizarding gene works and even explains why some witches and wizards are more powerful than others.
“Magical ability could be explained by a single autosomal dominant gene if it is caused by an expansion of trinucleotide repeats with non-Mendelian ratios of inheritance,” Klenotiz explains.
What does this mean?
In school we learn the fundamentals of genetics by studying Gregory Mendel’s pea plant experiments and completing basic Punnett squares. Basically, we’re taught that whenever one copy of a gene linked to a dominant trait is present, then the offspring will exhibit that dominant trait, regardless of the other gene.
However, Non-Mendelian genes don’t follow this rule, which is the basis of Klenotiz’s argument. She says that the wizarding gene could be explained if it’s caused by a trinucleotide repeat, which is the repetition of three nucleotides — the building blocks of DNA — multiple times.
These repeats can be found in normal genes, but sometimes many more copies of this repeated code can appear in genes than is standard, causing a mutation. This kind of mutation is responsible for genetic diseases like Huntington’s Disease. Depending upon how many of these repeats occur in the genes, a person could exhibit no symptoms, could have a mild form of the disease or could have a severe form of it.
In her paper, Klenotiz argues that eggs with high levels of these repeats are more likely to be fertilized, a phenomenon known as transmission ratio distortion. She also suggests that the egg or sperm with high levels of repeats is less likely to be created or to survive in the wizarding womb.
This argument answers several questions about wizarding genetics:
How can a wizard be born to muggle parents?
Genetic mutations can randomly appear, meaning anyone could be born with the wizarding gene. However, there’s a better chance of magical offspring occurring if the parents are on the high side of the normal range for mutations.
How can a squib be born to wizard parents?
Although parents with these mutated magical genes would be likely to pass the gene on to their children, there’s still a possibility that any given offspring might not inherit the trinucleotide repeat.
How can varying degrees of magical ability be explained?
The more repeats a wizard inherits, the stronger the magical power he or she will have. If both wizarding parents are powerful wizards, it’s likely their offspring will also be powerful.
You can read Klenotiz’s full paper on wizarding genetics here.
Far and away one of the nerdiest things I’ve ever read. Love it.