count	source_label	source_id	relationship	target_label	target_id	entity_type	solr_id	publication_id	sentences
4	CHLD_SYNE7	UNIPROT:O07345	activates		MESH:D004390	Phenotype	9c5b9816-3387-11e8-bf76-001a4a160175	27614262	The ability of biosurfactant of ChlD and, two chemical surfactants Tween 80 and SDS (sodium dodecyl sulfate) to enhance aqueous phase partitioning of chlorpyrifos from soil to M9 medium was evaluated.
3	CHLD_SYNE7	UNIPROT:O07345	inhibits		MESH:D004390	Phenotype	19dfa392-f04e-11e5-9b35-001a4ae51246	19627480	Degradation of chlorpyrifos by ChlD in the absence and presence of partially purified biosurfactant The isolate ChlD under optimized conditions (M-9 medium supplemented with 0·|||Degradation of chlorpyrifos by ChlD in the absence and presence of biosurfactant The ChlD cells were activated in M-9 medium (pH 8·|||4indicated >98% of chlorpyrifos degradation within 5 days of incubation at 28°C in comparison with 84% of degradation of chlorpyrifos by ChlD in the absence of biosurfactant.
2	CHLD_SYNE7	UNIPROT:O07345	activates		UNIPROT:Q9BU40	Protein	9879e1dc-1b72-11f0-85c3-0050569a1f61	10.1016/j.indcrop.2024.118364	In the mutants of pea (Pisum sativum), Chl-deficient leaves with undeveloped thylakoid membranes were caused by simultaneous silencing of magnesium chelatase subunits D (CHlD) and subunits I (CHlI) (Luo et al., 2013).
2		CHEBI:27363	inhibits	CHLD_SYNE7	UNIPROT:O07345	Chemical	e4d3d964-1ad9-11f0-b40b-0050569a1f61	10.1016/j.plaphy.2024.109160	In contrast, Zn deficiency inZea maysseedlings downregulated the expression ofGTR,CHLH,CHLD,CHLM,DVRandPORgenes encoding the chlorophyll biosynthesis pathway (Zhang et al., 2019).
1	CHLD_SYNE7	UNIPROT:O07345	activates		CHEBI:15430	Chemical	0f28a926-c466-11e5-91a7-001a4ae51247	PMC3641230	The polymeric magnesium (Mg) chelatase complex consisting of the three different subunits CHLH, CHLI, and CHLD directs protoporphyrin IX into theMgbranch of tetrapyrrole biosynthesis.
1	CHLD_SYNE7	UNIPROT:O07345	inhibits		CHEBI:28966	Chemical	b07f1b76-ab14-11e6-8a7c-001a4ae51246	PMC5069423	T-DNA insertion alleles of the genes encoding the subunits of Mg-chelatase that induce severe chlorophyll deficiencies or albinism also inducegunphenotypes (Huang and Li, 2009).
1	CHLD_SYNE7	UNIPROT:O07345	activates		MESH:D008274	Phenotype	c787ff0e-c704-11ee-b22c-0050569a1f61	10.1016/j.rsci.2023.07.001	InSynechocystis, the C-terminal integrin domain of ChlD controls its interaction with ChlH, and mediates the synergistic reaction of Mg chelatase in the presence of Mg2+.
1	CHLD_SYNE7	UNIPROT:O07345	inhibits		GO:0009058	Phenotype	77c3a214-db5b-11ee-ae05-0050569a1f61	10.1007/s10725-017-0345-5	In the present results, the constantly down-regulation of ChLD in the chloroplast of leaf from early to middle and late stages of grain-filling must have influenced the ring structure of the CHLI–CHLD–Mg–ATP complex, limited the biosynthesis of chlorophyll, and by which damaged the photosynthesis and promoted the senescence of leaf.
1	CHLD_SYNE7	UNIPROT:O07345	activates		MESH:D000417	Phenotype	b07f1b76-ab14-11e6-8a7c-001a4ae51246	PMC5069423	T-DNA insertion alleles of the genes encoding the subunits of Mg-chelatase that induce severe chlorophyll deficiencies or albinism also inducegunphenotypes (Huang and Li, 2009).
1	CHLD_SYNE7	UNIPROT:O07345	activates		GO:0090398	Phenotype	77c3a214-db5b-11ee-ae05-0050569a1f61	10.1007/s10725-017-0345-5	In the present results, the constantly down-regulation of ChLD in the chloroplast of leaf from early to middle and late stages of grain-filling must have influenced the ring structure of the CHLI–CHLD–Mg–ATP complex, limited the biosynthesis of chlorophyll, and by which damaged the photosynthesis and promoted the senescence of leaf.
1		PF:PF13541	phosphorylatesProtein	CHLD_SYNE7	UNIPROT:O07345	ProteinFamily	5019b0f4-c6a3-11ee-b346-0050569a791b	10.1016/j.plantsci.2023.111892	Also, the formation of the ID complex in bothC.reinhardtiiandOryza sativainvolves the phosphorylation of CHLD by CHLI.
1		PF:PF05419	activates	CHLD_SYNE7	UNIPROT:O07345	ProteinFamily	e4cd3b4e-bc2f-11e5-9b9d-001a4ae51247	10.1016/j.febslet.2011.12.026	We define the conditions under which ChlH is activated by GUN4 and demonstrate that the GUN4 activated ChlH is the optimal chelatase substrate for the ATP dependent ChlI:ChlD complex.
1		MESH:D018532	inhibits	CHLD_SYNE7	UNIPROT:O07345	Phenotype	14be8280-7c8b-11e9-bef9-001a4a160175	PMC6529213	The silence of CHLD and CHLI (magnesium chelatase subunit D and I) induced by viruses in peas resulted in yellow leaf phenotypes with rapid reduction of photosynthetic proteins, undeveloped thylakoid membranes, altered chloroplast nucleoid structure and malformed antenna complexes [9].
1		PF:PF00004	phosphorylatesProtein	CHLD_SYNE7	UNIPROT:O07345	ProteinFamily	7d5f4ad9-f53d-11eb-bb17-001a4a160176	29807591	It is noted here that 1-N-histidine phosphorylation of ChlD by the AAA(+) ChlI2 was found to stimulate MgChelatase activity during chlorophyll synthesis [187].
1		UNIPROT:Q9FNB0	activates	CHLD_SYNE7	UNIPROT:O07345	Protein	e4cd3b4e-bc2f-11e5-9b9d-001a4ae51247	10.1016/j.febslet.2011.12.026	We define the conditions under which ChlH is activated by GUN4 and demonstrate that the GUN4 activated ChlH is the optimal chelatase substrate for the ATP dependent ChlI:ChlD complex.