PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
35038358-0	2022	Drosophila ZIP13 overexpression or transferrin1 RNAi influences the muscle degeneration of Pink1 RNAi by elevating iron levels in mitochondria.	Iron	115-119	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	11-16	
35038358-5	2022	Consistently, the rescue effects of dZIP13 OE or Tsf1 RNAi on Pink1 RNAi can be inhibited by decreasing the iron levels in mitochondria through mitoferrin (dmfrn) RNAi.	Iron	108-112	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	36-42	
35038358-2	2022	To investigate iron metabolism genes related to PTEN-induced kinase 1 (Pink1) and parkin (E3 ubiquitin ligase), two PD-associated proteins that function to coordinate mitochondrial turnover via induction of selective mitophagy, we conducted a genetic screen in Drosophila and found that altered expression of genes involved in iron metabolism, such as Drosophila ZIP13 (dZIP13) or transferrin1 (Tsf1), significantly influences the disease progression related to Pink1 but not parkin.	Iron	15-19	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	363-368	
35038358-6	2022	This study suggests that dZIP13, Tsf1 and dmfrn might act independently of parkin in a parallel pathway downstream of Pink1 by modulating respiration and indicates that manipulation of iron levels in mitochondria may provide a novel therapeutic strategy for PD associated with Pink1.	Iron	185-189	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	25-31	
35038358-2	2022	To investigate iron metabolism genes related to PTEN-induced kinase 1 (Pink1) and parkin (E3 ubiquitin ligase), two PD-associated proteins that function to coordinate mitochondrial turnover via induction of selective mitophagy, we conducted a genetic screen in Drosophila and found that altered expression of genes involved in iron metabolism, such as Drosophila ZIP13 (dZIP13) or transferrin1 (Tsf1), significantly influences the disease progression related to Pink1 but not parkin.	Iron	15-19	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	370-376	
35038358-4	2022	The rescue effects of dZIP13 OE or Tsf1 RNAi were not exerted through mitochondrial disruption or mitophagy, instead, the iron levels in mitochondira were significantly increased, resulting in enhanced activity of enzymes participating in respiration and increased ATP synthesis.	Iron	122-126	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	22-28	
31733261-0	2020	A distinctive sequence motif in the fourth transmembrane domain confers ZIP13 iron function in Drosophila melanogaster.	Iron	78-82	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	72-77	
31733261-4	2020	Specifically, we reported before that the Drosophila ZIP family member ZIP13 (dZIP13), functions as an iron exporter and was responsible for pumping iron into the secretory pathway.	Iron	103-107	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	71-76	
31733261-4	2020	Specifically, we reported before that the Drosophila ZIP family member ZIP13 (dZIP13), functions as an iron exporter and was responsible for pumping iron into the secretory pathway.	Iron	103-107	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	78-84	
31733261-4	2020	Specifically, we reported before that the Drosophila ZIP family member ZIP13 (dZIP13), functions as an iron exporter and was responsible for pumping iron into the secretory pathway.	Iron	149-153	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	71-76	
31733261-4	2020	Specifically, we reported before that the Drosophila ZIP family member ZIP13 (dZIP13), functions as an iron exporter and was responsible for pumping iron into the secretory pathway.	Iron	149-153	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	78-84	
31733261-8	2020	Swapping D/H position of this DNXXH sequence in dZIP13 resulted in loss of iron activity; normal dZIP13 could not complement dZIP7 loss, but swapping the two relative amino acid positions D and H in dZIP13 was sufficient to make it functionally analogous to its close homologue dZIP7.	Iron	75-79	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	48-54	
31229649-0	2019	Drosophila ZIP13 is posttranslationally regulated by iron-mediated stabilization.	Iron	53-57	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	11-16	
31229649-1	2019	Drosophila ZIP13 (dZIP13, CG7816/ZIP99C) belongs to the SLC39A family and is connected to iron homeostasis in the fruit fly.	Iron	90-94	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	11-16	
31229649-1	2019	Drosophila ZIP13 (dZIP13, CG7816/ZIP99C) belongs to the SLC39A family and is connected to iron homeostasis in the fruit fly.	Iron	90-94	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	18-24	
31229649-1	2019	Drosophila ZIP13 (dZIP13, CG7816/ZIP99C) belongs to the SLC39A family and is connected to iron homeostasis in the fruit fly.	Iron	90-94	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	33-39	
31229649-2	2019	In this study, we show that dZIP13 level is strongly regulated by iron.	Iron	66-70	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	28-34	
31229649-3	2019	In addition to a mild response to iron at the mRNA level, dZIP13 is strongly regulated at the protein level.	Iron	34-38	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	58-64	
31229649-4	2019	This posttranslational regulation by iron also happens when dZIP13 is expressed in the yeast Saccharomyces cerevisiae.	Iron	37-41	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	60-66	
31229649-5	2019	Iron functions to stabilize dZIP13.	Iron	0-4	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	28-34	
31229649-6	2019	Domain-swapping experiments between dZIP7 (CG10449/ Catsup) and dZIP13 suggest that the N-terminus of dZIP13 is necessary to mediate this iron regulatory process.	Iron	138-142	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	64-70	
31229649-6	2019	Domain-swapping experiments between dZIP7 (CG10449/ Catsup) and dZIP13 suggest that the N-terminus of dZIP13 is necessary to mediate this iron regulatory process.	Iron	138-142	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	102-108	
31229649-8	2019	Mutations of these potential iron binding sites at the N-terminus, as well as a likely iron binding site at the C-terminus of dZIP13, completely abolish the iron-dependent upregulation in the yeast and the fruit fly.	Iron	87-91	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	126-132	
31229649-8	2019	Mutations of these potential iron binding sites at the N-terminus, as well as a likely iron binding site at the C-terminus of dZIP13, completely abolish the iron-dependent upregulation in the yeast and the fruit fly.	Iron	87-91	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	126-132	
31229649-9	2019	Iron-responsiveness of dZIP13 is consistent with its key role in iron homeostasis.	Iron	0-4	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	23-29	
31229649-9	2019	Iron-responsiveness of dZIP13 is consistent with its key role in iron homeostasis.	Iron	65-69	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	23-29	
31229649-10	2019	We speculate that this process of dZIP13 regulation, and that of IRE/IRP-controlled ferritin production, work together to better cope with iron repletion in the fly.	Iron	139-143	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	34-40	
29445391-2	2017	Previously we identified dZIP13 (CG7816), a member of the ZIP transporter family (SLC39A) and presumably a zinc importer, is in fact physiologically primarily responsible to move iron from the cytosol into the secretory compartments in the fly.	Iron	179-183	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	25-31	
29684424-13	2018	However, its importance to fly iron homeostasis is greatly minimized, which is instead dominated by another iron efflux avenue mediated by the ZIP13-ferritin axis along the ER/Golgi secretion pathway.	Iron	31-35	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	143-148	
29684424-13	2018	However, its importance to fly iron homeostasis is greatly minimized, which is instead dominated by another iron efflux avenue mediated by the ZIP13-ferritin axis along the ER/Golgi secretion pathway.	Iron	108-112	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	143-148	
25006035-0	2014	The metal transporter ZIP13 supplies iron into the secretory pathway in Drosophila melanogaster.	Iron	37-41	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	22-27	
25006035-2	2014	In this study, we show Drosophila ZIP13 (Slc39a13), a presumed zinc importer, fulfills the iron effluxing role.	Iron	91-95	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	34-39	
25006035-3	2014	Interfering with dZIP13 expression causes iron-rescuable iron absorption defect, simultaneous iron increase in the cytosol and decrease in the secretory compartments, failure of ferritin iron loading, and abnormal collagen secretion.	Iron	42-46	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	17-23	
25006035-3	2014	Interfering with dZIP13 expression causes iron-rescuable iron absorption defect, simultaneous iron increase in the cytosol and decrease in the secretory compartments, failure of ferritin iron loading, and abnormal collagen secretion.	Iron	57-61	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	17-23	
25006035-3	2014	Interfering with dZIP13 expression causes iron-rescuable iron absorption defect, simultaneous iron increase in the cytosol and decrease in the secretory compartments, failure of ferritin iron loading, and abnormal collagen secretion.	Iron	57-61	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	17-23	
25006035-3	2014	Interfering with dZIP13 expression causes iron-rescuable iron absorption defect, simultaneous iron increase in the cytosol and decrease in the secretory compartments, failure of ferritin iron loading, and abnormal collagen secretion.	Iron	57-61	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	17-23	
25006035-4	2014	dZIP13 expression in E. coli confers upon the host iron-dependent growth and iron resistance.	Iron	51-55	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	0-6	
25006035-4	2014	dZIP13 expression in E. coli confers upon the host iron-dependent growth and iron resistance.	Iron	77-81	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	0-6	
25006035-5	2014	Importantly, time-coursed transport assays using an iron isotope indicated a potent iron exporting activity of dZIP13.	Iron	52-56	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	111-117	
25006035-5	2014	Importantly, time-coursed transport assays using an iron isotope indicated a potent iron exporting activity of dZIP13.	Iron	84-88	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	111-117	
25006035-6	2014	The identification of dZIP13 as an iron transporter suggests that the spondylocheiro dysplastic form of Ehlers-Danlos syndrome, in which hZIP13 is defective, is likely due to a failure of iron delivery to the secretory compartments.	Iron	35-39	Zinc/iron regulated transporter-related protein 99C	Drosophila melanogaster	22-28