PMID-sentid	Pub_year	Sent_text	comp_official_name	comp_offset	protein_name	organism	prot_offset
32774340-0	2020	Corrigendum: Arabidopsis G-Protein beta Subunit AGB1 Interacts With BES1 to Regulate Brassinosteroid Signaling and Cell Elongation.	Brassinosteroids	85-100	GTP binding protein beta 1	Arabidopsis thaliana	48-52
34571915-0	2021	Molecular Characterization of NDL1-AGB1 Mediated Salt Stress Signaling: Further Exploration of the Role of NDL1 Interacting Partners.	Salts	49-53	GTP binding protein beta 1	Arabidopsis thaliana	35-39
34571915-8	2021	Using various available mutant and overexpression lines of NDL1 and AGB1, we found that NDL1 acts as a negative regulator during salt stress response at the seedling stage, an opposite response to that of AGB1.	Salts	129-133	GTP binding protein beta 1	Arabidopsis thaliana	68-72
7937804-0	1994	Isolation of cDNAs encoding guanine nucleotide-binding protein beta-subunit homologues from maize (ZGB1) and Arabidopsis (AGB1).	Guanine Nucleotides	28-46	GTP binding protein beta 1	Arabidopsis thaliana	122-126
34968413-6	2022	AGB1 has previously been shown to control a distinct UPR pathway independently of IRE1 when treated with an ER stress inducer tunicamycin.	Tunicamycin	126-137	GTP binding protein beta 1	Arabidopsis thaliana	0-4
34968413-7	2022	Our results obtained with combinatorial knockout mutants support the hypothesis that both IRE1 and AGB1 synergistically contribute to ER stress responses chemically induced by dithiothreitol (DTT) as well as to the immune responses against a phytopathogenic bacterium Pseudomonas syringae pv.	Dithiothreitol	176-190	GTP binding protein beta 1	Arabidopsis thaliana	99-103
34968413-7	2022	Our results obtained with combinatorial knockout mutants support the hypothesis that both IRE1 and AGB1 synergistically contribute to ER stress responses chemically induced by dithiothreitol (DTT) as well as to the immune responses against a phytopathogenic bacterium Pseudomonas syringae pv.	Dithiothreitol	192-195	GTP binding protein beta 1	Arabidopsis thaliana	99-103
30882980-0	2019	The Arabidopsis heterotrimeric G-protein beta subunit, AGB1, is required for guard cell calcium sensing and calcium-induced calcium release.	Calcium	88-95	GTP binding protein beta 1	Arabidopsis thaliana	55-59
32107545-5	2020	The agb1 mutant altered metal ion profiles and exhibited severe growth arrest under zinc stress and aberrant root waving under iron and zinc stresses, while Galpha-null mutation attenuated leaf chlorosis under iron deficiency both in Arabidopsis and rice.	Metals	24-29	GTP binding protein beta 1	Arabidopsis thaliana	4-8
32107545-5	2020	The agb1 mutant altered metal ion profiles and exhibited severe growth arrest under zinc stress and aberrant root waving under iron and zinc stresses, while Galpha-null mutation attenuated leaf chlorosis under iron deficiency both in Arabidopsis and rice.	Iron	127-131	GTP binding protein beta 1	Arabidopsis thaliana	4-8
30882980-0	2019	The Arabidopsis heterotrimeric G-protein beta subunit, AGB1, is required for guard cell calcium sensing and calcium-induced calcium release.	Calcium	108-115	GTP binding protein beta 1	Arabidopsis thaliana	55-59
30882980-0	2019	The Arabidopsis heterotrimeric G-protein beta subunit, AGB1, is required for guard cell calcium sensing and calcium-induced calcium release.	Calcium	108-115	GTP binding protein beta 1	Arabidopsis thaliana	55-59
29907954-5	2018	Here, we investigated genetic interactions of AGB1 and FER in plant salinity response by comparing salt responses in the single and double mutants of agb1 and fer.	Salts	99-103	GTP binding protein beta 1	Arabidopsis thaliana	150-154
30882980-3	2019	Here, we report that the sole Arabidopsis heterotrimeric Gbeta subunit, AGB1, is required for four guard cell Cao responses: induction of stomatal closure; inhibition of stomatal opening; [Ca2+ ]cyt oscillation; and inositol 1,4,5-trisphosphate (InsP3) production.	lime	110-113	GTP binding protein beta 1	Arabidopsis thaliana	72-76
30882980-3	2019	Here, we report that the sole Arabidopsis heterotrimeric Gbeta subunit, AGB1, is required for four guard cell Cao responses: induction of stomatal closure; inhibition of stomatal opening; [Ca2+ ]cyt oscillation; and inositol 1,4,5-trisphosphate (InsP3) production.	Inositol 1,4,5-Trisphosphate	216-244	GTP binding protein beta 1	Arabidopsis thaliana	72-76
30882980-6	2019	These behaviors contrast with ABA-regulated stomatal movements, which involve GPA1 and AGB1/AGG3 dimers, illustrating differential partitioning of G-protein subunits among stimuli with similar ultimate impacts, which may facilitate stimulus-specific encoding.	Abscisic Acid	30-33	GTP binding protein beta 1	Arabidopsis thaliana	87-91
30882980-7	2019	AGB1 knockouts retained reactive oxygen species and NO production, but lost YC3.6-detected [Ca2+ ]cyt oscillations in response to Cao , initiating only a single [Ca2+ ]cyt spike.	Reactive Oxygen Species	24-47	GTP binding protein beta 1	Arabidopsis thaliana	0-4
30882980-7	2019	AGB1 knockouts retained reactive oxygen species and NO production, but lost YC3.6-detected [Ca2+ ]cyt oscillations in response to Cao , initiating only a single [Ca2+ ]cyt spike.	lime	130-133	GTP binding protein beta 1	Arabidopsis thaliana	0-4
30882980-9	2019	Yeast two-hybrid and bimolecular complementation fluorescence experiments revealed that AGB1 interacts with phospholipase Cs (PLCs), and Cao induced InsP3 production in Col but not in agb1.	Cesium	122-124	GTP binding protein beta 1	Arabidopsis thaliana	88-92
30882980-10	2019	In sum, G-protein signaling via AGB1/AGG1/AGG2 is essential for Cao -regulation of stomatal apertures, and stomatal movements in response to Cao apparently require Ca2+ -induced Ca2+ release that is likely dependent on Gbetagamma interaction with PLCs leading to InsP3 production.	lime	64-67	GTP binding protein beta 1	Arabidopsis thaliana	32-36
30882980-10	2019	In sum, G-protein signaling via AGB1/AGG1/AGG2 is essential for Cao -regulation of stomatal apertures, and stomatal movements in response to Cao apparently require Ca2+ -induced Ca2+ release that is likely dependent on Gbetagamma interaction with PLCs leading to InsP3 production.	lime	141-144	GTP binding protein beta 1	Arabidopsis thaliana	32-36
30882980-10	2019	In sum, G-protein signaling via AGB1/AGG1/AGG2 is essential for Cao -regulation of stomatal apertures, and stomatal movements in response to Cao apparently require Ca2+ -induced Ca2+ release that is likely dependent on Gbetagamma interaction with PLCs leading to InsP3 production.	gbetagamma	219-229	GTP binding protein beta 1	Arabidopsis thaliana	32-36
29907954-6	2018	We show that AGB1 and FER act additively or synergistically depending on the conditions of the NaCl treatments.	Sodium Chloride	95-99	GTP binding protein beta 1	Arabidopsis thaliana	13-17
29907954-8	2018	In addition, we show that RALF1 enhances salt toxicity through increasing Na+ accumulation and decreasing K+ accumulation rather than by inducing ROS production, and that the RALF1 effect on salt response occurs in an AGB1-independent manner.	Salts	191-195	GTP binding protein beta 1	Arabidopsis thaliana	218-222
28792629-7	2017	The enhanced resistance to PcBMM of the agb1-2 esk1-7 double mutant was not the result of the re-activation of deficient PTI responses in agb1-2.	pcbmm	27-32	GTP binding protein beta 1	Arabidopsis thaliana	40-46
29375601-0	2017	Arabidopsis G-Protein beta Subunit AGB1 Interacts with BES1 to Regulate Brassinosteroid Signaling and Cell Elongation.	Brassinosteroids	72-87	GTP binding protein beta 1	Arabidopsis thaliana	35-39
29375601-4	2017	An AGB1-null mutant, agb1-2, displays BR hyposensitivity and brassinazole (BRZ, BR biosynthesis inhibitor) hypersensitivity, which suggests that AGB1 positively mediates the BR signaling pathway.	brassinazole	61-73	GTP binding protein beta 1	Arabidopsis thaliana	3-7
29375601-4	2017	An AGB1-null mutant, agb1-2, displays BR hyposensitivity and brassinazole (BRZ, BR biosynthesis inhibitor) hypersensitivity, which suggests that AGB1 positively mediates the BR signaling pathway.	brassinazole	61-73	GTP binding protein beta 1	Arabidopsis thaliana	21-25
29375601-4	2017	An AGB1-null mutant, agb1-2, displays BR hyposensitivity and brassinazole (BRZ, BR biosynthesis inhibitor) hypersensitivity, which suggests that AGB1 positively mediates the BR signaling pathway.	brassinazole	61-73	GTP binding protein beta 1	Arabidopsis thaliana	145-149
29375601-4	2017	An AGB1-null mutant, agb1-2, displays BR hyposensitivity and brassinazole (BRZ, BR biosynthesis inhibitor) hypersensitivity, which suggests that AGB1 positively mediates the BR signaling pathway.	brassinazole	75-78	GTP binding protein beta 1	Arabidopsis thaliana	3-7
29375601-4	2017	An AGB1-null mutant, agb1-2, displays BR hyposensitivity and brassinazole (BRZ, BR biosynthesis inhibitor) hypersensitivity, which suggests that AGB1 positively mediates the BR signaling pathway.	brassinazole	75-78	GTP binding protein beta 1	Arabidopsis thaliana	21-25
29375601-4	2017	An AGB1-null mutant, agb1-2, displays BR hyposensitivity and brassinazole (BRZ, BR biosynthesis inhibitor) hypersensitivity, which suggests that AGB1 positively mediates the BR signaling pathway.	brassinazole	75-78	GTP binding protein beta 1	Arabidopsis thaliana	145-149
29375601-4	2017	An AGB1-null mutant, agb1-2, displays BR hyposensitivity and brassinazole (BRZ, BR biosynthesis inhibitor) hypersensitivity, which suggests that AGB1 positively mediates the BR signaling pathway.	Brassinosteroids	38-40	GTP binding protein beta 1	Arabidopsis thaliana	3-7
29375601-4	2017	An AGB1-null mutant, agb1-2, displays BR hyposensitivity and brassinazole (BRZ, BR biosynthesis inhibitor) hypersensitivity, which suggests that AGB1 positively mediates the BR signaling pathway.	Brassinosteroids	38-40	GTP binding protein beta 1	Arabidopsis thaliana	21-25
29375601-4	2017	An AGB1-null mutant, agb1-2, displays BR hyposensitivity and brassinazole (BRZ, BR biosynthesis inhibitor) hypersensitivity, which suggests that AGB1 positively mediates the BR signaling pathway.	Brassinosteroids	38-40	GTP binding protein beta 1	Arabidopsis thaliana	145-149
28187200-14	2017	Finally, the G protein complex becomes dissociated thus AGB1 interacts with its effector proteins leading to changes in reactive oxygen species and calcium.	Reactive Oxygen Species	120-143	GTP binding protein beta 1	Arabidopsis thaliana	56-60
28187200-14	2017	Finally, the G protein complex becomes dissociated thus AGB1 interacts with its effector proteins leading to changes in reactive oxygen species and calcium.	Calcium	148-155	GTP binding protein beta 1	Arabidopsis thaliana	56-60
26528314-4	2015	The action of HXK1 on AtRGS1 signaling lies downstream of the primary step in G protein-mediated sugar signaling in which the WD-repeat protein, AGB1, is the propelling signaling element.	Sugars	97-102	GTP binding protein beta 1	Arabidopsis thaliana	145-149
26431457-7	2016	The agb1 mutant is hyposensitive to ABA inhibition of K(+)-mediated but not Na(+)-mediated stomatal opening.	alisol B 23-acetate	36-39	GTP binding protein beta 1	Arabidopsis thaliana	4-8
25635681-0	2015	A G-protein beta subunit, AGB1, negatively regulates the ABA response and drought tolerance by down-regulating AtMPK6-related pathway in Arabidopsis.	alisol B 23-acetate	57-60	GTP binding protein beta 1	Arabidopsis thaliana	26-30
25808946-3	2015	The knockout mutant of the Arabidopsis heterotrimeric G-protein Gbeta subunit, agb1, is hypersensitive to salt, exhibiting a leaf bleaching phenotype.	Salts	106-110	GTP binding protein beta 1	Arabidopsis thaliana	27-83
25808946-8	2015	Calcium alleviates the salt hypersensitivity of agb1 by reducing Na(+) accumulation to below the toxicity threshold.	Calcium	0-7	GTP binding protein beta 1	Arabidopsis thaliana	48-52
25808946-8	2015	Calcium alleviates the salt hypersensitivity of agb1 by reducing Na(+) accumulation to below the toxicity threshold.	Salts	23-27	GTP binding protein beta 1	Arabidopsis thaliana	48-52
25635681-5	2015	Data showed that AGB1 interacted with protein kinase AtMPK6 that was previously shown to phosphorylate AtVIP1, a transcription factor responding to ABA signaling.	alisol B 23-acetate	148-151	GTP binding protein beta 1	Arabidopsis thaliana	17-21
25635681-6	2015	Our study found that transcript levels of three ABA responsive genes, AtMPK6, AtVIP1 and AtMYB44 (downstream gene of AtVIP1), were significantly up-regulated in agb1-2 lines after ABA or drought treatments.	alisol B 23-acetate	48-51	GTP binding protein beta 1	Arabidopsis thaliana	161-165
25635681-6	2015	Our study found that transcript levels of three ABA responsive genes, AtMPK6, AtVIP1 and AtMYB44 (downstream gene of AtVIP1), were significantly up-regulated in agb1-2 lines after ABA or drought treatments.	alisol B 23-acetate	180-183	GTP binding protein beta 1	Arabidopsis thaliana	161-165
25635681-7	2015	Other ABA-responsive and drought-inducible genes, such as RD29A (downstream gene of AtMYB44), were also up-regulated in agb1-2 lines.	alisol B 23-acetate	6-9	GTP binding protein beta 1	Arabidopsis thaliana	120-124
25635681-9	2015	These results suggest that AGB1 was involved in the ABA signaling pathway and drought tolerance in Arabidopsis through down-regulating the AtMPK6, AtVIP1 and AtMYB44 cascade.	alisol B 23-acetate	52-55	GTP binding protein beta 1	Arabidopsis thaliana	27-31
23814276-0	2013	Arabidopsis heterotrimeric G protein beta subunit, AGB1, regulates brassinosteroid signalling independently of BZR1.	Brassinosteroids	67-82	GTP binding protein beta 1	Arabidopsis thaliana	51-55
26237103-6	2015	An isolated homozygous mutant of AGB1, agb1-3, was more sensitive to the tunicamycin-induced ER stress compared to the wild type and the other loss-of-function mutants of G protein subunits.	Tunicamycin	73-84	GTP binding protein beta 1	Arabidopsis thaliana	33-37
26237103-6	2015	An isolated homozygous mutant of AGB1, agb1-3, was more sensitive to the tunicamycin-induced ER stress compared to the wild type and the other loss-of-function mutants of G protein subunits.	Tunicamycin	73-84	GTP binding protein beta 1	Arabidopsis thaliana	39-43
24098050-0	2013	The Arabidopsis adaptor protein AP-3mu interacts with the G-protein beta subunit AGB1 and is involved in abscisic acid regulation of germination and post-germination development.	Abscisic Acid	105-118	GTP binding protein beta 1	Arabidopsis thaliana	81-85
24098050-7	2013	Two ap-3micro T-DNA insertional mutants were found to be hyposensitive to abscisic acid (ABA) during germination and post-germination growth, whereas agb1 mutants were hypersensitive to ABA.	Abscisic Acid	186-189	GTP binding protein beta 1	Arabidopsis thaliana	150-154
24098050-8	2013	During seed germination, agb1/ap-3micro double mutants were more sensitive to ABA than the wild type but less sensitive than agb1 mutants.	Abscisic Acid	78-81	GTP binding protein beta 1	Arabidopsis thaliana	25-29
24098050-10	2013	These data suggest that AP-3micro positively regulates the ABA responses independently of AGB1 in seed germination, while AP-3micro does require AGB1 to regulate ABA responses during post-germination growth.	Abscisic Acid	162-165	GTP binding protein beta 1	Arabidopsis thaliana	145-149
23814276-7	2013	The results suggest that AGB1 interacts with BIN2, but regulates the BR signalling in a BZR1-independent manner.	Brassinosteroids	69-71	GTP binding protein beta 1	Arabidopsis thaliana	25-29
23814276-1	2013	The Arabidopsis thaliana heterotrimeric G protein beta subunit, AGB1, is involved in both abscisic acid (ABA) signalling and brassinosteroid (BR) signalling, but it is unclear how AGB1 regulates these signalling pathways.	Abscisic Acid	90-103	GTP binding protein beta 1	Arabidopsis thaliana	64-68
23814276-1	2013	The Arabidopsis thaliana heterotrimeric G protein beta subunit, AGB1, is involved in both abscisic acid (ABA) signalling and brassinosteroid (BR) signalling, but it is unclear how AGB1 regulates these signalling pathways.	Abscisic Acid	105-108	GTP binding protein beta 1	Arabidopsis thaliana	64-68
23814276-1	2013	The Arabidopsis thaliana heterotrimeric G protein beta subunit, AGB1, is involved in both abscisic acid (ABA) signalling and brassinosteroid (BR) signalling, but it is unclear how AGB1 regulates these signalling pathways.	Brassinosteroids	125-140	GTP binding protein beta 1	Arabidopsis thaliana	64-68
23814276-1	2013	The Arabidopsis thaliana heterotrimeric G protein beta subunit, AGB1, is involved in both abscisic acid (ABA) signalling and brassinosteroid (BR) signalling, but it is unclear how AGB1 regulates these signalling pathways.	Brassinosteroids	142-144	GTP binding protein beta 1	Arabidopsis thaliana	64-68
23814276-4	2013	Expression of bzr1-1 alleviated the effects of a BR biosynthesis inhibitor, brassinazole, in both the wild type and agb1-1, and overexpression of BZR1 alleviated the effects of ABA in both the wild type and agb1-1.	brassinazole	76-88	GTP binding protein beta 1	Arabidopsis thaliana	116-122
21712381-9	2011	We show here that ARD1 is an active metalloenzyme, and AGB1 and ARD1 both control embryonic hypocotyl length by modulating cell division; they also may contribute to the production of ethylene, a product of the methionine salvage pathway.	ethylene	184-192	GTP binding protein beta 1	Arabidopsis thaliana	55-59
21980142-8	2012	Biochemical analyses and Fourier Transform InfraRed (FTIR) spectroscopy of cell walls from G-protein mutants revealed that the xylose content was lower in agb1 and agg1 agg2 mutants than in wild-type plants, and that mutant walls had similar FTIR spectratypes, which differed from that of wild-type plants.	Xylose	127-133	GTP binding protein beta 1	Arabidopsis thaliana	155-159
21712381-9	2011	We show here that ARD1 is an active metalloenzyme, and AGB1 and ARD1 both control embryonic hypocotyl length by modulating cell division; they also may contribute to the production of ethylene, a product of the methionine salvage pathway.	Methionine	211-221	GTP binding protein beta 1	Arabidopsis thaliana	55-59
19160542-9	2008	In addition, we observe that agb1 is more sensitive to H2O2 than WT seedlings, indicating that the G-protein may also modify the sensitivity of the seedlings to ROS stress.	Hydrogen Peroxide	55-59	GTP binding protein beta 1	Arabidopsis thaliana	29-33
19160542-9	2008	In addition, we observe that agb1 is more sensitive to H2O2 than WT seedlings, indicating that the G-protein may also modify the sensitivity of the seedlings to ROS stress.	Reactive Oxygen Species	161-164	GTP binding protein beta 1	Arabidopsis thaliana	29-33
18397373-6	2008	Our data show that mutants lacking either XLG3 or AGB1 genes are hypersensitive to ethylene and show growth responses consistent with alterations in auxin transport, while maintaining an essentially wild-type response to the physical cues of gravity and touch.	ethylene	83-91	GTP binding protein beta 1	Arabidopsis thaliana	50-54
18541915-5	2008	In guard cells, where K(+) fluxes are integral to cellular regulation of stomatal apertures, inhibition of inward K(+) (K(in)) currents and stomatal opening by the phytohormone abscisic acid (ABA) was equally impaired in Atgpa1 and agb1 single mutants and the Atgpa1 agb1 double mutant.	Abscisic Acid	177-190	GTP binding protein beta 1	Arabidopsis thaliana	232-236
18541915-5	2008	In guard cells, where K(+) fluxes are integral to cellular regulation of stomatal apertures, inhibition of inward K(+) (K(in)) currents and stomatal opening by the phytohormone abscisic acid (ABA) was equally impaired in Atgpa1 and agb1 single mutants and the Atgpa1 agb1 double mutant.	Abscisic Acid	177-190	GTP binding protein beta 1	Arabidopsis thaliana	267-271
18541915-5	2008	In guard cells, where K(+) fluxes are integral to cellular regulation of stomatal apertures, inhibition of inward K(+) (K(in)) currents and stomatal opening by the phytohormone abscisic acid (ABA) was equally impaired in Atgpa1 and agb1 single mutants and the Atgpa1 agb1 double mutant.	Abscisic Acid	192-195	GTP binding protein beta 1	Arabidopsis thaliana	232-236
18541915-5	2008	In guard cells, where K(+) fluxes are integral to cellular regulation of stomatal apertures, inhibition of inward K(+) (K(in)) currents and stomatal opening by the phytohormone abscisic acid (ABA) was equally impaired in Atgpa1 and agb1 single mutants and the Atgpa1 agb1 double mutant.	Abscisic Acid	192-195	GTP binding protein beta 1	Arabidopsis thaliana	267-271
16581874-5	2006	Our data show that GPA1, AGB1, and GCR1 each negatively regulates ABA signaling in seed germination and early seedling development.	Abscisic Acid	66-69	GTP binding protein beta 1	Arabidopsis thaliana	25-29
16581874-6	2006	Plants lacking AGB1 have greater ABA hypersensitivity than plants lacking GPA1, suggesting that AGB1 is the predominant regulator of ABA signaling and that GPA1 affects the efficacy of AGB1 execution.	Abscisic Acid	33-36	GTP binding protein beta 1	Arabidopsis thaliana	15-19
16581874-6	2006	Plants lacking AGB1 have greater ABA hypersensitivity than plants lacking GPA1, suggesting that AGB1 is the predominant regulator of ABA signaling and that GPA1 affects the efficacy of AGB1 execution.	Abscisic Acid	33-36	GTP binding protein beta 1	Arabidopsis thaliana	96-100
16581874-6	2006	Plants lacking AGB1 have greater ABA hypersensitivity than plants lacking GPA1, suggesting that AGB1 is the predominant regulator of ABA signaling and that GPA1 affects the efficacy of AGB1 execution.	Abscisic Acid	33-36	GTP binding protein beta 1	Arabidopsis thaliana	96-100
16581874-6	2006	Plants lacking AGB1 have greater ABA hypersensitivity than plants lacking GPA1, suggesting that AGB1 is the predominant regulator of ABA signaling and that GPA1 affects the efficacy of AGB1 execution.	Abscisic Acid	133-136	GTP binding protein beta 1	Arabidopsis thaliana	15-19
16581874-6	2006	Plants lacking AGB1 have greater ABA hypersensitivity than plants lacking GPA1, suggesting that AGB1 is the predominant regulator of ABA signaling and that GPA1 affects the efficacy of AGB1 execution.	Abscisic Acid	133-136	GTP binding protein beta 1	Arabidopsis thaliana	96-100
16581874-6	2006	Plants lacking AGB1 have greater ABA hypersensitivity than plants lacking GPA1, suggesting that AGB1 is the predominant regulator of ABA signaling and that GPA1 affects the efficacy of AGB1 execution.	Abscisic Acid	133-136	GTP binding protein beta 1	Arabidopsis thaliana	96-100
16581874-7	2006	GCR1 acts upstream of GPA1 and AGB1 for ABA signaling pathways during germination and early seedling development: gcr1 gpa1 double mutants exhibit a gpa1 phenotype and agb1 gcr1 and agb1 gcr1 gpa1 mutants exhibit an agb1 phenotype.	Abscisic Acid	40-43	GTP binding protein beta 1	Arabidopsis thaliana	31-35
16581874-8	2006	Contrary to the scenario in guard cells, where GCR1 and GPA1 have opposite effects on ABA signaling during stomatal opening, GCR1 acts in concert with GPA1 and AGB1 in ABA signaling during germination and early seedling development.	Abscisic Acid	168-171	GTP binding protein beta 1	Arabidopsis thaliana	160-164
16855027-3	2006	Arabidopsis thaliana seedlings lacking the beta subunit (AGB1) of the G protein complex have altered cell division in the hypocotyl and are D-glucose hypersensitive.	Glucose	140-149	GTP binding protein beta 1	Arabidopsis thaliana	57-61
16855027-5	2006	One agb1-2-dependent suppressor, designated sgb1-1(D) for suppressor of G protein beta1 (agb1-2), restored to wild type the altered cell division in the hypocotyl and sugar hypersensitivity of the agb1-2 mutant.	Sugars	167-172	GTP binding protein beta 1	Arabidopsis thaliana	4-8
16855027-5	2006	One agb1-2-dependent suppressor, designated sgb1-1(D) for suppressor of G protein beta1 (agb1-2), restored to wild type the altered cell division in the hypocotyl and sugar hypersensitivity of the agb1-2 mutant.	Sugars	167-172	GTP binding protein beta 1	Arabidopsis thaliana	89-93
16855027-5	2006	One agb1-2-dependent suppressor, designated sgb1-1(D) for suppressor of G protein beta1 (agb1-2), restored to wild type the altered cell division in the hypocotyl and sugar hypersensitivity of the agb1-2 mutant.	Sugars	167-172	GTP binding protein beta 1	Arabidopsis thaliana	89-93
15181210-8	2004	However, the reduced sensitivities toward GA and BR in the single gcr1, gpa1, and agb1 (heterotrimeric G-protein beta-subunit) mutants are additive or synergistic in the double and triple mutants.	Brassinosteroids	49-51	GTP binding protein beta 1	Arabidopsis thaliana	82-86