This molecule features a bicyclic system composed of two fused, saturated five-membered rings:
1. In anticlockwise order, the atoms in the first ring are:
	- A sulfur atom at position 1,
	- Carbons at positions 2 and 3,
	- A nitrogen atom at position 4, and
	- A carbon at position 5, which closes the ring by bonding to the sulfur.
2. The second ring is arranged in anticlockwise order as follows:
	- A carbon atom (designated C1),
	- A nitrogen atom (N2), and
	- Three carbons (C3, C4, and C5), with C1 and N2 shared with the first ring (C1 is equivalent to the carbon at position 5 of the first ring).
3. Substituents on the rings:
    - Within the second ring, C3 is double-bonded to an oxygen atom, forming a carbonyl group, and C1 carries a methyl substituent.
    - The carbon at position 3 of the first ring bears an additional substituent. This substituent consists of a carbon atom that is single-bonded to an oxygen (-OH) and double-bonded to a nitrogen (i.e., -C(OH)=N-). The nitrogen of this moiety extends into a two-carbon chain (-CH2-CH2-) that terminates in a phenyl ring. This phenyl ring is substituted with an isopropyl group (-CH(CH3)2) at the para position relative to the point of attachment.
