M/Z: 465.0768

Hit 3 annotations: 5-Chloromethylfluorescein diacetate_[M+H]+; Epicatechin Gallate_[M+Na]+; 6,7,14-trihydroxy-13-{[3,4,5-trihydroxy-6-(hydroxymethyl)oxan-2-yl]oxy}-2,9-dioxatetracyclo[6.6.2.0⁴,¹⁶.0¹¹,¹⁵]hexadeca-1(15),4,6,8(16),11,13-hexaene-3,10-dione_[M+H]+

在BioDeep NovoCell知识数据库中，参考离子总共被划分为4个级别。

Confirmed: 这个参考离子已经通过手动审计得到确认和验证。
Reliable: 这个参考离子可能在特定的解剖组织环境中高度保守。
Unreliable: 这个参考离子具有较高的排名价值，但缺乏可重复性。
Unavailable: 由于排名价值低且缺乏可重复性，这个参考离子不应用于注释。

Found 7 Reference Ions Near m/z 465.0768

NovoCell ID	m/z	Mass Window	Metabolite	Ranking	Anatomy Context
MSI_000017728 Reliable	465.0768	465.0768 ~ 465.0769 MzDiff: `0.5 ppm`	Epicatechin Gallate (BioDeep_00000017213) Formula: C22H18O10 (442.09)	1.58 (100%)	Vitis vinifera [PO:0009087] mesocarp
MSI_000053875 Unreliable	465.0694	465.0693 ~ 465.0695 MzDiff: `0.9 ppm`	FT-0696949 (BioDeep_00000003262) Formula: C16H20N2O10S2 (464.0559)	4.03 (75%)	MALDI - CHCA [NOVOCELL:BACKGROUND] blank
MSI_000012853 Unavailable	465.0705	465.0705 ~ 465.0705 MzDiff: `none`	5-Chloromethylfluorescein diacetate (BioDeep_00000174686) Formula: C25H17ClO7 (464.0663)	-0.49 (100%)	Plant [PO:0005020] vascular bundle
MSI_000014103 Unavailable	465.0705	465.0705 ~ 465.0705 MzDiff: `none`	5-Chloromethylfluorescein diacetate (BioDeep_00000174686) Formula: C25H17ClO7 (464.0663)	-0.31 (100%)	Plant [PO:0005417] phloem
MSI_000014985 Unavailable	465.0705	465.0705 ~ 465.0705 MzDiff: `none`	5-Chloromethylfluorescein diacetate (BioDeep_00000174686) Formula: C25H17ClO7 (464.0663)	-0.51 (100%)	Plant [PO:0006036] root epidermis
MSI_000018330 Unreliable	465.0705	465.0705 ~ 465.0705 MzDiff: `none`	5-Chloromethylfluorescein diacetate (BioDeep_00000174686) Formula: C25H17ClO7 (464.0663)	1.78 (100%)	Plant [PO:0020124] root stele
MSI_000019832 Unavailable	465.0705	465.0705 ~ 465.0705 MzDiff: `none`	5-Chloromethylfluorescein diacetate (BioDeep_00000174686) Formula: C25H17ClO7 (464.0663)	-0.47 (100%)	Plant [PO:0025197] stele

Found 6 Sample Hits

Metabolite	Species	Sample
5-Chloromethylfluorescein diacetate Formula: C25H17ClO7 (464.0663) Adducts: [M+H]+ (Ppm: 6.6)	Plant (Root)	MPIMM_035_QE_P_PO_6pm Resolution: 30μm, 165x170 Description
Epicatechin Gallate Formula: C22H18O10 (442.09) Adducts: [M+Na]+ (Ppm: 5)	Vitis vinifera (Fruit)	grape_dhb_91_1 Resolution: 50μm, 120x114 Description Grape berries fruit, condition: Ripe
Epicatechin Gallate Formula: C22H18O10 (442.09) Adducts: [M+Na]+ (Ppm: 5.2)	Vitis vinifera (Fruit)	grape_dhb_164_1 Resolution: 17μm, 136x122 Description Grape berries fruit, condition: Late
Epicatechin Gallate Formula: C22H18O10 (442.09) Adducts: [M+Na]+ (Ppm: 5.2)	Vitis vinifera (Fruit)	grape_dhb_163_1 Resolution: 17μm, 132x115 Description Grape berries fruit, condition: Late
6,7,14-trihydroxy-13-{[3,4,5-trihydroxy-6-(hydroxymethyl)oxan-2-yl]oxy}-2,9-dioxatetracyclo[6.6.2.0⁴,¹⁶.0¹¹,¹⁵]hexadeca-1(15),4,6,8(16),11,13-hexaene-3,10-dione Formula: C20H16O13 (464.0591) Adducts: [M+H]+ (Ppm: 6.3)	Posidonia oceanica (root)	20190822_MS1_A19r-19 Resolution: 17μm, 303x309 Description Seagrasses are among the most efficient sinks of carbon dioxide on Earth. While carbon sequestration in terrestrial plants is linked to the microorganisms living in their soils, the interactions of seagrasses with their rhizospheres are poorly understood. Here, we show that the seagrass, Posidonia oceanica excretes sugars, mainly sucrose, into its rhizosphere. These sugars accumulate to µM concentrations—nearly 80 times higher than previously observed in marine environments. This finding is unexpected as sugars are readily consumed by microorganisms. Our experiments indicated that under low oxygen conditions, phenolic compounds from P. oceanica inhibited microbial consumption of sucrose. Analyses of the rhizosphere community revealed that many microbes had the genes for degrading sucrose but these were only expressed by a few taxa that also expressed genes for degrading phenolics. Given that we observed high sucrose concentrations underneath three other species of marine plants, we predict that the presence of plant-produced phenolics under low oxygen conditions allows the accumulation of labile molecules across aquatic rhizospheres.
Epicatechin Gallate Formula: C22H18O10 (442.09) Adducts: [M+Na]+ (Ppm: 0.2)	Posidonia oceanica (root)	MS1_20180404_PO_1200 Resolution: 17μm, 193x208 Description