PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
9657769-10	1998	Our findings establish the molecular identity of an amorph Rhnull disease gene, showing that Rh30 and Rh50 are both essential for the functioning of the Rh structures as a multisubunit complex in the plasma membrane.	Rhodium	59-61	Rh associated glycoprotein	Homo sapiens	102-106	
32077188-3	2020	We found that the high-index-facet bounded Rh 2 Sb RNRs/C exhibit a high NH 3 yield rate of 228.85 +- 12.96 microg h -1 mg -1 Rh at -0.45 V versus reversible hydrogen electrode (RHE), outperforming the Rh 2 Sb SNRs/C (63.07 +- 4.45 microg h -1 mg -1 Rh ) and Rh nanoparticles/C (22.82 +- 1.49 microg h -1 mg -1 Rh ), due to the enhanced adsorption and activation of N 2 on high-index facets.	Rhodium	43-45	Rh associated glycoprotein	Homo sapiens	202-206	
34425475-8	2021	X-ray absorption spectroscopy showed almost the same Rh-Rh distance (2.41 +- 0.01 A) for the Rh2(AcO)4 units as in 2, and a contribution from an axial thiol coordination (Rh-Saxial 2.62 +- 0.05 A).	Rhodium	53-55	Rh associated glycoprotein	Homo sapiens	93-102	
34425475-8	2021	X-ray absorption spectroscopy showed almost the same Rh-Rh distance (2.41 +- 0.01 A) for the Rh2(AcO)4 units as in 2, and a contribution from an axial thiol coordination (Rh-Saxial 2.62 +- 0.05 A).	Rhodium	56-58	Rh associated glycoprotein	Homo sapiens	93-102	
32077188-3	2020	We found that the high-index-facet bounded Rh 2 Sb RNRs/C exhibit a high NH 3 yield rate of 228.85 +- 12.96 microg h -1 mg -1 Rh at -0.45 V versus reversible hydrogen electrode (RHE), outperforming the Rh 2 Sb SNRs/C (63.07 +- 4.45 microg h -1 mg -1 Rh ) and Rh nanoparticles/C (22.82 +- 1.49 microg h -1 mg -1 Rh ), due to the enhanced adsorption and activation of N 2 on high-index facets.	Rhodium	126-128	Rh associated glycoprotein	Homo sapiens	43-47	
32077188-3	2020	We found that the high-index-facet bounded Rh 2 Sb RNRs/C exhibit a high NH 3 yield rate of 228.85 +- 12.96 microg h -1 mg -1 Rh at -0.45 V versus reversible hydrogen electrode (RHE), outperforming the Rh 2 Sb SNRs/C (63.07 +- 4.45 microg h -1 mg -1 Rh ) and Rh nanoparticles/C (22.82 +- 1.49 microg h -1 mg -1 Rh ), due to the enhanced adsorption and activation of N 2 on high-index facets.	Rhodium	126-128	Rh associated glycoprotein	Homo sapiens	202-206	
32077188-3	2020	We found that the high-index-facet bounded Rh 2 Sb RNRs/C exhibit a high NH 3 yield rate of 228.85 +- 12.96 microg h -1 mg -1 Rh at -0.45 V versus reversible hydrogen electrode (RHE), outperforming the Rh 2 Sb SNRs/C (63.07 +- 4.45 microg h -1 mg -1 Rh ) and Rh nanoparticles/C (22.82 +- 1.49 microg h -1 mg -1 Rh ), due to the enhanced adsorption and activation of N 2 on high-index facets.	Rhodium	126-128	Rh associated glycoprotein	Homo sapiens	43-47	
32077188-3	2020	We found that the high-index-facet bounded Rh 2 Sb RNRs/C exhibit a high NH 3 yield rate of 228.85 +- 12.96 microg h -1 mg -1 Rh at -0.45 V versus reversible hydrogen electrode (RHE), outperforming the Rh 2 Sb SNRs/C (63.07 +- 4.45 microg h -1 mg -1 Rh ) and Rh nanoparticles/C (22.82 +- 1.49 microg h -1 mg -1 Rh ), due to the enhanced adsorption and activation of N 2 on high-index facets.	Rhodium	126-128	Rh associated glycoprotein	Homo sapiens	202-206	
32077188-3	2020	We found that the high-index-facet bounded Rh 2 Sb RNRs/C exhibit a high NH 3 yield rate of 228.85 +- 12.96 microg h -1 mg -1 Rh at -0.45 V versus reversible hydrogen electrode (RHE), outperforming the Rh 2 Sb SNRs/C (63.07 +- 4.45 microg h -1 mg -1 Rh ) and Rh nanoparticles/C (22.82 +- 1.49 microg h -1 mg -1 Rh ), due to the enhanced adsorption and activation of N 2 on high-index facets.	Rhodium	126-128	Rh associated glycoprotein	Homo sapiens	43-47	
32077188-3	2020	We found that the high-index-facet bounded Rh 2 Sb RNRs/C exhibit a high NH 3 yield rate of 228.85 +- 12.96 microg h -1 mg -1 Rh at -0.45 V versus reversible hydrogen electrode (RHE), outperforming the Rh 2 Sb SNRs/C (63.07 +- 4.45 microg h -1 mg -1 Rh ) and Rh nanoparticles/C (22.82 +- 1.49 microg h -1 mg -1 Rh ), due to the enhanced adsorption and activation of N 2 on high-index facets.	Rhodium	126-128	Rh associated glycoprotein	Homo sapiens	202-206	
31944016-1	2019	Rhodium dinuclear complexes (1-3) with azulene moieties as equatorial ligands were obtained by reacting Rh2 (OAc)4 with guaiazulene-2-carboxylic acid, azulene-2-carboxylic acid, and azulene-1-carboxylic acid, respectively.	Rhodium	0-7	Rh associated glycoprotein	Homo sapiens	104-107	
31632027-4	2019	The submicron-flower-shaped nanocomposites were further functionalized with ginsenoside Rh2 by a cleavable ester bond via carbodiimide chemistry to form Rh2HAZnO.	Rhodium	153-161	Rh associated glycoprotein	Homo sapiens	88-91	
30855255-6	2019	The RhIII...RhIII distance, 3.18 +- 0.02 A, in the chain is similar to that previously found for the aerobic reaction product from aqueous solutions of Rh2(AcO)4 and glutathione (H3A), {Na2[Rh2III(HA)4] 7H2O}n, in which each Rh(III) ion is surrounded by about four Rh-S (2.33 +- 0.02 A) and about two Rh-O (2.08 +- 0.02 A).	Rhodium	4-6	Rh associated glycoprotein	Homo sapiens	152-161	
30855255-6	2019	The RhIII...RhIII distance, 3.18 +- 0.02 A, in the chain is similar to that previously found for the aerobic reaction product from aqueous solutions of Rh2(AcO)4 and glutathione (H3A), {Na2[Rh2III(HA)4] 7H2O}n, in which each Rh(III) ion is surrounded by about four Rh-S (2.33 +- 0.02 A) and about two Rh-O (2.08 +- 0.02 A).	Rhodium	265-269	Rh associated glycoprotein	Homo sapiens	152-161	
24609290-4	2014	In view of the promising catalytic properties of Rh, the gold nanorods modified by RhAg in different structures are examined as catalysts for the oxidation of o-phenylenediamine.	Rhodium	49-51	Rh associated glycoprotein	Homo sapiens	83-87	
27753156-4	2016	Crystals of polymeric {Rh2 (O2 CCF3 )4 N(CH2 CH2 )2 NC70 }n  nC6 H6 that formed from reaction of the mono-adduct with Rh2 (O2 CCF3 )4 contain a sinusoidal strand of alternating molecules of N(CH2 CH2 )2 NC70 and Rh2 (O2 CCF3 )4 connected through Rh-N bonds.	Rhodium	23-25	Rh associated glycoprotein	Homo sapiens	118-121	
27753156-4	2016	Crystals of polymeric {Rh2 (O2 CCF3 )4 N(CH2 CH2 )2 NC70 }n  nC6 H6 that formed from reaction of the mono-adduct with Rh2 (O2 CCF3 )4 contain a sinusoidal strand of alternating molecules of N(CH2 CH2 )2 NC70 and Rh2 (O2 CCF3 )4 connected through Rh-N bonds.	Rhodium	23-25	Rh associated glycoprotein	Homo sapiens	118-121	
25565808-4	2015	Microbeads are infused with the fluorophore, dansyl-piperazine (Ds-pip), and quenched when the fluorophore is coordinated with a rhodium (Rh)-complex, ie, Rh2(AcO(-))4(Ds-pip).	Rhodium	129-136	Rh associated glycoprotein	Homo sapiens	155-167	
25565808-4	2015	Microbeads are infused with the fluorophore, dansyl-piperazine (Ds-pip), and quenched when the fluorophore is coordinated with a rhodium (Rh)-complex, ie, Rh2(AcO(-))4(Ds-pip).	Rhodium	138-140	Rh associated glycoprotein	Homo sapiens	155-167	
24573575-1	2014	An efficient synthesis of 1-aryl-benzo-gamma-sultams, 1-aryl-1,3-dihydrobenzo[c]isothiazole-2,2-dioxides, was achieved in 65-99% yields via the Rh-catalyzed intramolecular aromatic C-H functionalization of N,N-diaryl diazosulfonamides with 0.5 mol% Rh2(oct)4 as the catalyst.	Rhodium	144-146	Rh associated glycoprotein	Homo sapiens	249-252	
28836328-2	2017	Glycophorin B (GPB) is a component of the Rh/RhAG subcomplex that is also structurally associated with glycophorin A (GPA).	Rhodium	42-44	Rh associated glycoprotein	Homo sapiens	45-49	
26991451-1	2016	A novel, mixed-ligand chiral rhodium(II) catalyst, Rh2(S-NTTL)3(dCPA), has enabled the first enantioselective total synthesis of the natural product piperarborenine B.	Rhodium	29-36	Rh associated glycoprotein	Homo sapiens	51-54