PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
34662400-7	2022	Although bam9 single mutants resemble the wild type, genetic experiments reveal that the loss of BAM9 markedly enhances the starch-excess phenotypes of mutants already impaired in starch degradation.	Starch	124-130	beta-amylase 3	Arabidopsis thaliana	97-101	
34662400-7	2022	Although bam9 single mutants resemble the wild type, genetic experiments reveal that the loss of BAM9 markedly enhances the starch-excess phenotypes of mutants already impaired in starch degradation.	Starch	180-186	beta-amylase 3	Arabidopsis thaliana	9-13	
34662400-7	2022	Although bam9 single mutants resemble the wild type, genetic experiments reveal that the loss of BAM9 markedly enhances the starch-excess phenotypes of mutants already impaired in starch degradation.	Starch	180-186	beta-amylase 3	Arabidopsis thaliana	97-101	
34662400-8	2022	Thus, BAM9 also regulates starch breakdown, but in a different way.	Starch	26-32	beta-amylase 3	Arabidopsis thaliana	6-10	
34662400-11	2022	We propose that BAM9 activates starch degradation, helping to manage carbohydrate availability in response to fluctuations in environmental conditions.	Starch	31-37	beta-amylase 3	Arabidopsis thaliana	16-20	
26792489-4	2016	In Arabidopsis, nocturnal degradation of transitory starch involves mainly beta-amylase-3 (BAM3).	Starch	52-58	beta-amylase 3	Arabidopsis thaliana	75-89	
29309132-1	2018	beta-Amylase3 (BAM3) is an enzyme that is essential for starch degradation in plant leaves and is also transcriptionally induced under cold stress.	Starch	56-62	beta-amylase 3	Arabidopsis thaliana	0-13	
29309132-1	2018	beta-Amylase3 (BAM3) is an enzyme that is essential for starch degradation in plant leaves and is also transcriptionally induced under cold stress.	Starch	56-62	beta-amylase 3	Arabidopsis thaliana	15-19	
29309132-3	2018	This decrease in BAM3 activity may relate to the accumulation of starch reported in cold-stressed plants.	Starch	65-71	beta-amylase 3	Arabidopsis thaliana	17-21	
26792489-4	2016	In Arabidopsis, nocturnal degradation of transitory starch involves mainly beta-amylase-3 (BAM3).	Starch	52-58	beta-amylase 3	Arabidopsis thaliana	91-95	
22898356-6	2012	From this network, we found that beta-amylase 3 (b-amy3: At4g17090), which participates in starch degradation in chloroplast, is the most frequently connected gene (a hub gene).	Starch	91-97	beta-amylase 3	Arabidopsis thaliana	33-47	
26628055-13	2015	The differential abundance of beta-amylase 3 and isoamylase 3 indicates a central role of transitory starch degradation in the coordination of growth regulation and the development of stress tolerance.	Starch	101-107	beta-amylase 3	Arabidopsis thaliana	30-61