>>3608738>what are the genome things about?A human is made up of two halves - one allele from their mother, one from their father.
An allele is defined by the nucleobase used - A, C, G, U or T.
If you have to C's - CC - you're a homozygote. If you have CT, you're a heterozygote. Ancient humans had less heterozygosity than modern people;
>http://science.sciencemag.org/content/358/6363/655>Thus, low heterozygosity may be a feature typical of archaic hominins, suggesting that they lived in small and isolated populations with an effective population size of around 3000 individ- uals (20). In addition to low overall heterozygosity, the Altai Neandertal genome carried segments of many megabases (Mb) [>10 centimorgans (cM)] without any differences between its two chromosomes, indicating that the parents of that individual were related at the level of half- sibs (2). Such segments are almost totally ab- sent in the Vindija genome (Fig. 1B), suggesting that the extreme inbreeding between the par- ents of the Altai Neandertal was not ubiquitous among Neandertals. We note, however, that the Vindija genome carries extended homozygous segments (>2.5 cM) comparable to what is seen in some isolated Native American populations todayI am an Archon, and I want a certain body. My intention is to use CRISPR to produce a culture of GM cells, which I'll use to grow new organs and tissue to replace my old body.
I'll also genetically modify some of these cells so that they function as lasers - because lasering lignin produces graphene;
>https://www.nature.com/news/2011/110612/full/news.2011.365.html>Human cell becomes living laser>https://www.ncbi.nlm.nih.gov/pubmed/28737226>Here, a facile approach is reported to transform wood into hierarchical porous graphene>Studies reveal that the crosslinked lignocellulose structure inherent in wood with higher lignin content is more favorable for the generation of high-quality graphene than wood with lower lignin content 