PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
7918381-7	1994	65 degrees C with a spin-label in the lipid head group and an accompanying increase in mobility at the same temperature with spin-labels positioned toward the terminal methyl of the hydrocarbon chain.	Hydrocarbons	182-193	spindlin 1	Homo sapiens	125-129	
27809529-0	2016	Spin-Delocalization in a Helical Open-Shell Hydrocarbon.	Hydrocarbons	44-55	spindlin 1	Homo sapiens	0-4	
27809529-3	2016	Here, we examine the prospect of extending spin-delocalization over a helical backbone in a model compound naphtho[3,2,1-no]tetraphene, the first helically chiral open-shell hydrocarbon, in which one benzene ring is fused to [5]helicene, forming a phenalenyl subunit.	Hydrocarbons	174-185	spindlin 1	Homo sapiens	43-47	
26816269-7	2016	On the basis of mechanistic studies, we conclude that mononuclear nonheme high-spin iron(III)-acylperoxo complexes are strong oxidants capable of oxygenating hydrocarbons prior to their conversion into iron-oxo species via O-O bond cleavage.	Hydrocarbons	158-170	spindlin 1	Homo sapiens	79-83	
20572170-1	2010	High-spin organic structures can be obtained from fused polycyclic hydrocarbons, by converting selected peripheral HC(sp(2)) sites into H(2)C(sp(3)) ones, guided by Ovchinnikov"s rule.	Hydrocarbons	67-79	spindlin 1	Homo sapiens	5-9	
19673297-0	2009	Polarizability and spin density correlate with the relative anaerobic biodegradability of alkylaromatic hydrocarbons.	Hydrocarbons	104-116	spindlin 1	Homo sapiens	19-23	
17441143-2	2007	In hydrocarbon solvents, these polymers formed a physical gel and showed a thermoreversible spin transition upon the sol-gel phase transition.	Hydrocarbons	3-14	spindlin 1	Homo sapiens	92-96	
17441143-6	2007	Compared with nongelling references in aromatic solvents, the spin-crossover physical gels are characterized by their quick thermal response, which is due to a rapid restoration of the hydrogen-bonding network, possibly because of a dynamic structural ordering through an enhanced lipophilic interaction of the self-assembling components in hydrocarbon solvents.	Hydrocarbons	341-352	spindlin 1	Homo sapiens	62-66	
15351271-2	2004	Phospholipid derivatives, spin labeled at the 5th and 16th C-atoms along the hydrocarbon chain, incorporated in diC(14)-amidine bilayers, show that the bilayer structure is highly sensitive to the pH value of the medium, due to the two titratable groups present in the amphiphile.	Hydrocarbons	77-88	spindlin 1	Homo sapiens	26-30	
34270894-2	2021	Large spin-orbit coupling (SOC) is difficult to achieve in simple hydrocarbon structures limiting the intersystem crossing (ISC) rates.	Hydrocarbons	66-77	spindlin 1	Homo sapiens	6-10	
31575165-5	2019	The multiple band systems are attributed to spin-orbit splitting and vibronic transitions involving metal-hydrocarbon and hydrocarbon-based vibrations.	Hydrocarbons	106-117	spindlin 1	Homo sapiens	44-48	
31575165-5	2019	The multiple band systems are attributed to spin-orbit splitting and vibronic transitions involving metal-hydrocarbon and hydrocarbon-based vibrations.	Hydrocarbons	122-133	spindlin 1	Homo sapiens	44-48	
31575165-8	2019	The remaining Ce 5d electrons in the isolated atom are spin paired in molecular orbitals that are a bonding combination between Ce 5dpi and hydrocarbon pi* orbitals.	Hydrocarbons	140-151	spindlin 1	Homo sapiens	55-59