PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
17258237-0	2007	Hydrocarbons in coastal sediments from the Mediterranean sea (Gulf of Fos area, France).	Hydrocarbons	0-12	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	57-60	
15961122-0	2005	Hydrocarbons in surface sediments from the Sfax coastal zone, (Tunisia) Mediterranean Sea.	Hydrocarbons	0-12	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	86-89	
15327162-0	2004	Determination of hydrocarbons in mussels from the Egyptian Red Sea coast.	Hydrocarbons	17-29	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	63-66	
7922152-2	1994	The Adriatic Sea, as semienclosed body of water, is of special interest for an evaluation of the entry, extent and fate of the pollution by chlorinated hydrocarbons.	Hydrocarbons	152-164	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	13-16	
12561335-1	2002	The scale of production-destruction biotic balance in the Black Sea ecosystem, flows of organic carbon, carbon dioxide, and oxygen, and rate and volume of organic matter input in the Black Sea sediment as a source of formation and accumulation of fossilized hydrocarbon fuel minerals are estimated on the basis of the current concept of efficiency of solar radiation utilization by photosynthesis.	Hydrocarbons	258-269	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	64-67	
12561335-1	2002	The scale of production-destruction biotic balance in the Black Sea ecosystem, flows of organic carbon, carbon dioxide, and oxygen, and rate and volume of organic matter input in the Black Sea sediment as a source of formation and accumulation of fossilized hydrocarbon fuel minerals are estimated on the basis of the current concept of efficiency of solar radiation utilization by photosynthesis.	Hydrocarbons	258-269	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	189-192	
15091439-0	1996	Chlorinated hydrocarbons in coastal bottom sediments of the Japan Sea.	Hydrocarbons	12-24	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	66-69	
15091439-1	1996	Data on distribution of chlorinated hydrocarbons in coastal bottom sediments of different areas of the Japan Sea are presented.	Hydrocarbons	36-48	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	109-112	
11468922-0	2001	Hydrocarbon contamination of coastal sediments from the Sfax area (Tunisia), Mediterranean Sea.	Hydrocarbons	0-11	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	91-94	
11311466-1	2001	Microorganisms of Wadden Sea sediments are able to degrade hydrocarbons in suspensions.	Hydrocarbons	59-71	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	25-28	
1934996-4	1991	The communities are situated in the centre of the recent exploration for hydrocarbon resources in the Beaufort Sea and have experienced the direct social impacts of this industrial activity.	Hydrocarbons	73-84	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	111-114	
34378990-12	2021	Understanding how cold-adapted microbiomes catalyze hydrocarbon degradation at low in situ temperature is crucial in the Labrador Sea, which remains relatively cold throughout the year.	Hydrocarbons	52-63	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	130-133	
22175747-0	1976	Distribution of low-molecular-weight hydrocarbons in Southern Beaufort Sea.	Hydrocarbons	37-49	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	71-74	
7089711-0	1982	[Abbreviated version of the National Contingency Plan for Combatting and Controlling Emissions of Hydrocarbons and Other Harmful Substances into the Sea].	Hydrocarbons	98-110	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	149-152	
32182919-0	2020	Geochemical and Geophysical Monitoring of Hydrocarbon Seepage in the Adriatic Sea.	Hydrocarbons	42-53	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	78-81	
5401121-0	1969	[Black Sea microorganisms growing on hydrocarbons].	Hydrocarbons	37-49	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	7-10	
32803027-2	2020	One of the major concerns especially in waters like the South China Sea is the deposition of wax on the walls of the pipeline or wellbore, constricting and hindering the hydrocarbon flow.	Hydrocarbons	170-181	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	68-71	
30675992-0	2019	Effects of offshore oil exploration and development in the Alaskan Beaufort Sea: Long-term patterns of hydrocarbons in sediments.	Hydrocarbons	103-115	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	76-79	
31143165-1	2019	The Caspian Sea, which is the largest landlocked body of water on the planet, receives substantial annual hydrocarbon input from anthropogenic sources (e.g., industry, agriculture, oil exploration, and extraction) and natural sources (e.g., mud volcanoes and oil seeps).	Hydrocarbons	106-117	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	12-15	
30675992-8	2019	The hydrocarbons in the Beaufort Sea sediments are primarily from non-oil petrogenic and biogenic sources, with small amounts of pyrogenic hydrocarbons.	Hydrocarbons	4-16	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	33-36	
30675992-8	2019	The hydrocarbons in the Beaufort Sea sediments are primarily from non-oil petrogenic and biogenic sources, with small amounts of pyrogenic hydrocarbons.	Hydrocarbons	139-151	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	33-36	
30675992-9	2019	Most of the hydrocarbons are carried to the Beaufort Sea in coastal erosion and river inputs of hydrocarbon-rich materials, such as peat and shale.	Hydrocarbons	12-24	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	53-56	
30675992-9	2019	Most of the hydrocarbons are carried to the Beaufort Sea in coastal erosion and river inputs of hydrocarbon-rich materials, such as peat and shale.	Hydrocarbons	12-23	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	53-56	
30796595-0	2019	Assessing the ecological risks from hydrocarbons in the marine coastal sediments of Jeddah, Red Sea.	Hydrocarbons	36-48	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	96-99	
18478171-0	2008	Hydrocarbon pollution in the sediment from the Jarzouna-Bizerte coastal area of Tunisia (Mediterranean Sea).	Hydrocarbons	0-11	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	103-106	
29242470-9	2017	nov. is the second report of an occurrence of this genus at hydrocarbon seeps (both of which come from the Paleo-Barents Sea).	Hydrocarbons	60-71	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	121-124	
26774768-0	2016	Assessment of sediment hydrocarbon contamination from the 2009 Montara oil blow out in the Timor Sea.	Hydrocarbons	23-34	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	97-100	
29272834-1	2018	The Mediterranean Sea is one of the busiest areas worldwide in terms of maritime activity, facing considerable anthropogenic disturbance, such as pollution by hydrocarbons and heavy metals.	Hydrocarbons	159-171	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	18-21	
22321244-0	2012	Sulphur stable isotope systematics in diagenetic pyrite from the North Sea hydrocarbon reservoirs revealed by laser combustion analysis.	Hydrocarbons	75-86	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	71-74	
21862192-0	2011	Vertical fluxes of aromatic and aliphatic hydrocarbons in the Northwestern Mediterranean Sea.	Hydrocarbons	42-54	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	89-92	
20673676-4	2010	At depths of several kilometers below the sea surface, the occurrence and spread of the deep sea oil spill could be evaluated better by quantifying and characterizing the dissolved hydrocarbon signature, rather than just the investigation of hydrocarbons in the suspended particulate matter.	Hydrocarbons	181-192	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	93-96	
19820158-1	2009	Hydrocarbon seeps provide inputs of petroleum hydrocarbons to widespread areas of the Timor Sea.	Hydrocarbons	0-11	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	92-95	
17931665-0	2007	Distribution and origin of hydrocarbons in surficial sediments from the eastern Aegean Sea (Izmir Bay).	Hydrocarbons	27-39	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	87-90	
18504953-11	2008	In addition, the spatial transport and fate (i.e., air-sea exchange processes and water column diffusion) of the oil-related hydrocarbons in the sea surface were investigated.	Hydrocarbons	125-137	S13 erythroblastosis (avian) oncogene homolog	Homo sapiens	145-148