A friend of mine is subediting a book whose author died in 1999. The author, at some point, uses the word "trillion" which is, unfortunately, an ambiguous word in the UK: when I was at school it used to mean $10^{18}$ but nowadays it means $10^{12}$. My friend is faced with the following paragraph:
According to Asimov, the amino acids of the proteins behave in a much freer way than our words do: they can be rearranged in any manner and always retain some meaning. A simple protein is made up of eight amino acids, which can be classified putting the numbers one to eight in a series, changing the order of sequence by one digit each time. Out of the same number of "words" we can construct a little over 40,000 organised "biological phrases" from the same genetic code, each one with its own meaning, which is the mission of every protein. But if the chains become longer, as in the case of more complicated molecules such as insulin, which consists of 30 amino acids, the tally rises to a staggering eight million trillion possibilities.
The editor doesn't like "eight million trillion" and wants to replace it with "800000..000". The question, of course, is "how many zeros"? More precisely, the question is: is someone with a better understanding of chemistry than me able to reconstruct Asimov's calculation and see whether the answer is approximately $8 \times 10^{24}$ or $8 \times 10^{18}$?