count	source_label	source_id	relationship	target_label	target_id	entity_type	solr_id	publication_id	sentences
2	GRXC7_ARATH	UNIPROT:Q96305	inhibits		UNIPROT:Q9YAC7	Protein	e5a4e998-bc1d-11e5-8abe-001a4ae51246	10.1093/mp/ssr113	The current model on the ROXY1/PAN interplay predicts that ROXY1 inactivates PAN by reducing the protein at Cys340 (Li et al., 2009), which is located in a glutamine-rich region called Q1.
1	GRXC7_ARATH	UNIPROT:Q96305	inhibits		UNIPROT:Q9YAC7	Protein	bdf6f834-7cf0-11e6-a316-001a4ae51247	PMC5022239	In development, ROXY1 negatively regulates TGA transcription factor PERIANTHIA (PAN) to control meristematic activity during floral organogenesis [12].
1	GRXC7_ARATH	UNIPROT:Q96305	inhibits		UNIPROT:Q9YAC7	Protein	e9df9ad0-c47e-11e5-85e4-001a4ae51246	PMC2971623	Genetic analysis shows that thepanphenotype (extra petals) is epistatic to theroxy1 roxy2phenotype (fewer petals), suggesting that ROXY1 negatively regulates PAN activity (Li et al., 2009).
1	GRXC7_ARATH	UNIPROT:Q96305	activates		UNIPROT:Q9YAC7	Protein	843f11ba-3754-11e8-87fd-001a4a160176	25676896	Hence, in addition to PAN, ROXY1 may modulate the activity of other TGA factors displaying similar expression patterns, like TGA9 and TGA10[112,115].
1	GRXC7_ARATH	UNIPROT:Q96305	inhibits		UNIPROT:P16233	Protein	db94174c-5c2d-11e7-9833-001a4ae51246	PMC5296375	Thus under conditions of low oxygen it may be that in some circumstances ROXY1 can reduce cysteines in PTL to activate its growth-repressing functions.
1	GRXC7_ARATH	UNIPROT:Q96305	inhibits		UNIPROT:P22735	Protein	e9df9ad0-c47e-11e5-85e4-001a4ae51246	PMC2971623	Genetic analysis shows that thepanphenotype (extra petals) is epistatic to theroxy1 roxy2phenotype (fewer petals), suggesting that ROXY1 negatively regulates PAN activity (Li et al., 2009).
1	GRXC7_ARATH	UNIPROT:Q96305	inhibits		UNIPROT:O00220	Protein	041e8364-bbdf-11e5-9b9d-001a4ae51247	10.1016/j.jinsphys.2009.08.004	We also inserted markers throughout the recording to allow the selection of specific sections in the recording (‘A’ at 21kPa just before the ROXY-1 started to decrease aPO2, ‘B’ at 9.5, ‘C’ at 8.5, ‘D’ at 7.5 all the way to L at <0.5 and M at 21kPa after normoxia was restored).
1	GRXC7_ARATH	UNIPROT:Q96305	activates		UNIPROT:P50616	Protein	d913b9b0-ef81-11e5-872c-001a4ae51246	21756272	Over-expression of ATGRXC7/ROXY1 in Arabidopsis enhanced susceptibility toB.
1	GRXC7_ARATH	UNIPROT:Q96305	inhibits		CHEBI:48343	Chemical	82a26af6-350e-11e9-913f-001a4a160175	30093413	This was also demonstrated earlier for theArabidopsisGRXs ROXY1 and ROXY2, which reduce disulfide bonds in the heteromeric TGA9/TGA10 transcription factor complex, a reductive step that is necessary to activate gene expression during floral transition (Murmu et al., 2010).
1	GRXC7_ARATH	UNIPROT:Q96305	inhibits		CHEBI:22676	Chemical	db94174c-5c2d-11e7-9833-001a4ae51246	PMC5296375	Thus in the wild type the three proteins PTL, ROXY1, and AUX1 may limit auxin function in the first whorl between and within sepal primordia, keeping growth in check.
1	GRXC7_ARATH	UNIPROT:Q96305	activates		CHEBI:67040	Chemical	793c49ac-8ccd-11ee-add2-0050569a791b	10.1007/s00438-022-01881-7	In the roxy1 mutant, AG is ectopically expressed in the inflorescence meristem, indicating that ROXY1 may mediate SAM maintenance (Xing et al. 52).
1	GRXC7_ARATH	UNIPROT:Q96305	inhibits		GO:0006351	Phenotype	bdf6f834-7cf0-11e6-a316-001a4ae51247	PMC5022239	In development, ROXY1 negatively regulates TGA transcription factor PERIANTHIA (PAN) to control meristematic activity during floral organogenesis [12].