![PDF) Stress-induced metabolic exchanges between complementary bacterial types underly a dynamic mechanism of inter-species stress resistance PDF) Stress-induced metabolic exchanges between complementary bacterial types underly a dynamic mechanism of inter-species stress resistance](https://i1.rgstatic.net/publication/371174128_Stress-induced_metabolic_exchanges_between_complementary_bacterial_types_underly_a_dynamic_mechanism_of_inter-species_stress_resistance/links/6477e078d702370600c51c53/largepreview.png)
PDF) Stress-induced metabolic exchanges between complementary bacterial types underly a dynamic mechanism of inter-species stress resistance
![PDF) 2019 APHRS expert consensus statement on three‐dimensional mapping systems for tachycardia developed in collaboration with HRS, EHRA, and LAHRS PDF) 2019 APHRS expert consensus statement on three‐dimensional mapping systems for tachycardia developed in collaboration with HRS, EHRA, and LAHRS](https://i1.rgstatic.net/publication/339795139_2019_APHRS_expert_consensus_statement_on_three-dimensional_mapping_systems_for_tachycardia_developed_in_collaboration_with_HRS_EHRA_and_LAHRS/links/64709f2c59d5ad5f9c76d499/largepreview.png)
PDF) 2019 APHRS expert consensus statement on three‐dimensional mapping systems for tachycardia developed in collaboration with HRS, EHRA, and LAHRS
![PDF) Inositol pyrophosphates activate the vacuolar transport chaperone complex in yeast by disrupting a homotypic SPX domain interaction PDF) Inositol pyrophosphates activate the vacuolar transport chaperone complex in yeast by disrupting a homotypic SPX domain interaction](https://i1.rgstatic.net/publication/370606118_Inositol_pyrophosphates_activate_the_vacuolar_transport_chaperone_complex_in_yeast_by_disrupting_a_homotypic_SPX_domain_interaction/links/6459bfb25762c95ac380e687/largepreview.png)
PDF) Inositol pyrophosphates activate the vacuolar transport chaperone complex in yeast by disrupting a homotypic SPX domain interaction
![PDF) Date seed ( Phoenix dactylifera ) extract reduces the proliferation of pancreatic cancer cells, DNA damage and superoxide‐dependent iron release from ferritin in vitro (829.20) PDF) Date seed ( Phoenix dactylifera ) extract reduces the proliferation of pancreatic cancer cells, DNA damage and superoxide‐dependent iron release from ferritin in vitro (829.20)](https://i1.rgstatic.net/publication/352426185_Date_seed_Phoenix_dactylifera_extract_reduces_the_proliferation_of_pancreatic_cancer_cells_DNA_damage_and_superoxide-dependent_iron_release_from_ferritin_in_vitro_82920/links/6421d5d2a1b72772e42f6a03/largepreview.png)