Your example GUID is in a Microsoft specific format. From Wikipedia:
Other systems, notably Microsoft's marshalling of UUIDs in their COM/OLE libraries, use a mixed-endian format, whereby the first three components of the UUID are little-endian, and the last two are big-endian.
So in order to get that result, we have to move the bits around a little. Specifically, we have to change the endianess of the first three components. Let's start by breaking the GUID string apart:
guid = '35918bc9-196d-40ea-9779-889d79b753f0'
parts = guid.split('-')
#=> ["35918bc9", "196d", "40ea", "9779", "889d79b753f0"]
We can convert these hex-strings to binary via:
mixed_endian = parts.pack('H* H* H* H* H*')
#=> "5\x91\x8B\xC9\x19m@\xEA\x97y\x88\x9Dy\xB7S\xF0"
Next let's swap the first three parts:
big_endian = mixed_endian.unpack('L< S< S< A*').pack('L> S> S> A*')
#=> "\xC9\x8B\x915m\x19\xEA@\x97y\x88\x9Dy\xB7S\xF0"
L
denotes a 32-bit unsigned integer (1st component)
S
denotes a 16-bit unsigned integer (2nd and 3rd component)
<
and >
denote little-endian and big-endian, respectively
A*
treats the remaining bytes as an arbitrary binary string (we don't have to convert these)
If you prefer an array of bytes instead of a binary string, you'd just use:
big_endian.bytes
#=> [201, 139, 145, 53, 109, 25, 234, 64, 151, 121, 136, 157, 121, 183, 83, 240]
PS: if your actual GUID isn't Microsoft specific, you can skip the swapping part.