代谢物质靶向检测(Targeted Metabolomics)是代谢组学的重要分支,专注于对特定代谢物或特定类别代谢物进行高精度定性和定量分析。其核心在于利用已知代谢物的化学性质及标准品参照,实现对目标代谢物的精准检测,具有高特异性、高灵敏度(可达pg级)和绝对定量能力,广泛应用于动植物研究,疾病诊断、药物研发和基础代谢研究等领域。检测方法包括液相色谱(HPLC),气相色谱(GC),液质(LC-MS/MS),气质(GC-MS/MS)。
诺敏科达代谢物检测流程:
未开发的物质,找销售咨询,技术评估后,预实验检测确认方案;
已经开发的,找销售确认样本类型,获取报价,送样检测,建议送样量0.5g以上,具体物质明细:
序号 | 物质 | 编号 | 类别 | 方法 |
1 | 个性化靶向 | T001 | 5个物质以内 | LC-MS/MS |
2 | T002 | 5个物质及其以上 | LC-MS/MS | |
3 | 脂肪酸 | T003 | 7种 | GC-MS |
4 | T004 | 17种 | GC-MS | |
5 | T005 | 37种 | GC | |
6 | T006 | 48种 | GC-MS | |
7 | T007 | 51种 | GC-MS | |
8 | 有机酸 | T008 | 9种 | HPLC |
9 | T009-1 | 26种 | LC-MS/MS | |
10 | T009-2 | 65种 | LC-MS/MS | |
11 | 丙醇二酸 | T010 | 丙醇二酸(CAS:80-69-3) | HPLC |
12 | 维生素B1(VB1) | T011 | VB1【CAS:59-43-8】 | HPLC |
13 | 氨基酸 | T012 | 20种水解 | HPLC |
14 | T013 | 20种游离 | HPLC | |
15 | T014-1 | 22种游离 | LC-MS/MS | |
16 | T014-2 | 94种游离 | LC-MS/MS | |
17 | 能量代谢 | T015 | 68种 | LC-MS/MS |
18 | T016 | 100种 | LC-MS/MS | |
19 | 胆汁酸组分 | T017 | 41种 | LC-MS/MS |
20 | T018 | 65种 | LC-MS/MS | |
21 | 类固醇动物激素 | T019 | 43种 | LC-MS/MS |
22 | 神经递质 | T020 | 23种 | LC-MS/MS |
23 | T021 | 55种 | LC-MS/MS | |
24 | 氧化脂质 | T022 | 141种 | LC-MS/MS |
25 | 氧化三甲胺 | T023 | 6种 | LC-MS/MS |
26 | 色氨酸 | T024 | 30种 | LC-MS/MS |
27 | T025 | 31种 | LC-MS/MS | |
28 | T026 | 26种 | LC-MS/MS | |
29 | 生物胺 | T027 | 4种 | HPLC |
30 | 抗生素 | T028 | 4大类 | LC-MS/MS |
31 | T029 | 氨基苷类 | LC-MS/MS | |
32 | 视黄酸类物质 | T030 | 5种 | LC-MS/MS |
33 | 黄酮定量 | T031 | 185种 | LC-MS/MS |
34 | 儿茶素类 | T032 | 10种 | LC-MS/MS |
35 | T033 | 10种 | HPLC | |
36 | 木质素 | T034 | 3种 | GC-MS |
37 | T035 | 26种 | LC-MS/MS | |
38 | 糖 | T036 | 6种水解 | HPLC |
39 | T037 | 6种游离 | HPLC | |
40 | T038 | 食品5种 | HPLC | |
41 | T039 | 32种 | GC-MS | |
42 | T040-1 | 11种 | LC-MS/MS | |
T040-2 | 3种 | LC-MS/MS | ||
44 | T041 | 2种 | LC-MS/MS | |
45 | T041-2 | 4种 | LC-MS/MS | |
46 | 花青素 | T042 | 108种 | LC-MS/MS |
47 | 类胡萝卜素 | T043 | 68种 | LC-MS/MS |
48 | 磷脂脂肪酸(PLFA) | T044 | 171种 | GC-MS |
49 | 植物激素8大类88种 | T045 | 88种 | LC-MS/MS |
50 | 植物激素7大类47种 | T046 | 47种全做 | LC-MS/MS |
51 | T047 | 10个物质以内 | LC-MS/MS | |
52 | T048 | 20个物质以内 | LC-MS/MS | |
53 | 维生素-水溶性 | T049 | 7种 | HPLC |
54 | 维生素-脂溶性 | T050 | 4种 | HPLC |
55 | 嘌呤 | T051 | 4种 | HPLC |
56 | 辣椒碱 | T052 | 5种 | LC-MS/MS |
57 | T053 | HPLC | ||
58 | 土壤氨基糖 | T054 | 4种 | GC |
59 | 土壤木质素酚 | T055 | 12种 | LC-MS/MS |
60 | 土壤高丝氨酸内酯 | T056 | 10种 | LC-MS/MS |
61 | 黄酮3种 | T057 | 3种 | HPLC |
62 | 黄酮8种 | T058 | 8种 | LC-MS/MS |
63 | 氯霉素类物质 | T059 | 4种 | LC-MS/MS |
64 | 叶酸组分 | T060 | 4种 | LC-MS/MS |
65 | 莽草酸途径物质 | T061 | 5种 | LC-MS/MS |
66 | 游离胆固醇 | T062 | 胆固醇【57-88-5】 | HPLC |
67 | 乙烯含量(下单默认用顶空) | T063-1 | 乙烯气体(下单默认用顶空) | GC-MS |
68 | 叶绿素(a+b)含量 | T064 | 叶绿素a和b | HPLC |
69 | 葡萄糖醛酸,木聚糖 | T065 | 葡萄糖醛酸,木聚糖 | HPLC |
70 | 黄芪甲苷 | T066 | 黄芪甲苷(CAS:84687-43-4) | HPLC |
71 | 毛蕊异黄酮葡萄糖苷 | T067 | 毛蕊异黄酮葡萄糖苷【CAS:20633-67-4】 | HPLC |
72 | β-香树素 | T068 | β-香树素 | HPLC |
73 | 白芨苷 | T069 | 白芨苷【CAS:58139-23-4】 | HPLC |
74 | 维生素C | T070 | VC【CAS:50-81-7】 | HPLC |
75 | 芒果苷 | T071 | 芒果苷【CAS:4773-96-0】 | HPLC |
76 | 角鲨烯 | T072 | 角鲨烯【CAS:111-02-4】 | HPLC |
77 | 芥子油苷 | T073 | 硫苷【CAS:21414-41-5】 | HPLC |
78 | 薏苡素 | T074 | 薏苡素【CAS:532-91-2】 | HPLC |
79 | 丹参新醌A、 N-乙酰-L-苯丙氨酸 |
T075 | 丹参新醌A【CAS:65907-75-7】、N-乙酰-L-苯丙氨酸【CAS:2018-61-3】 | LC-MS/MS |
80 | 菊苣酸 | T076 | 菊苣酸【CAS:6537-80-0】 | HPLC |
81 | γ氨基丁酸 | T077 | γ-氨基丁酸【CAS: 56-12-2】 | HPLC |
82 | 虾青素 | T078 | 虾青素【CAS: 472-61-7】 | HPLC |
83 | 辅酶Q10 | T079 | 辅酶Q10【CAS:303-98-0】(需要提供标品)GB/T 22252-2008 | HPLC |
84 | Surfactin | T080 | Surfactin【24730-31-2】 | HPLC |
85 | 茶氨酸 | T081 | 茶氨酸【3081-61-6】 | HPLC |
86 | 奎宁酸 | T082 | 奎宁酸【CAS:77-95-2】 | HPLC |
87 | 肌苷酸(IMP) | T083 | 肌苷酸【CAS:131-99-7】 | HPLC |
88 | 麦角固醇(麦角淄醇) | T084 | 麦角淄醇【CAS:57-87-4】 | HPLC |
89 | 大黄素、大黄素甲醚 | T085 | 大黄素【CAS:518-82-1】、 大黄素甲醚【CAS:521-61-9】 |
HPLC |
90 | 白僵菌素 | T086 | 白僵菌素【CAS:26048-05-5】 | HPLC |
91 | 植物血红素 | T087 | 标品是氯化血红素【CAS:16009-13-5】 | HPLC |
92 | 沉香四醇 | T089 | 沉香四醇【CAS:69809-22-9】 | HPLC |
93 | 离子组(1-5个离子) | T090-1 | 1-5个离子 | ICP-MS |
离子组(6-10个离子) | T090-2 | 6-10个离子 | ICP-MS | |
离子组(11-33个离子) | T090-3 | 11-33个离子 | ICP-MS | |
101 | 三油酸甘油酯(甘油三油酸酯) | T097 | 三油酸甘油酯【CAS:122-32-7】 | HPLC |
102 | 维生素E(D-a-生育酚) | T098 | CAS:59-02-9 | HPLC |
103 | 元素25种 | T100 | 25种元素 | ICP-MS |
客户文章:
序号 | 诺敏科达提供服务 | 杂志名称 | 英文题目 | DOI号 |
1 | 元素+类胡萝卜素检测 | Genomics | Integrative analyses of transcriptome and carotenoids profiling revealed molecular insight into variations in fruits color of Citrus Reticulata Blanco induced by transplantation | doi.org/10.1016/j.ygeno.2022.110291 |
2 | 类胡萝卜素检测 | Food Chemistry | The content and diversity of carotenoids associated with high altitude adaptation in Tibetan peach fruit. | doi.org/10.1016/j.foodchem.2022.133909 |
3 | α-亚麻酸 靶向检测 | Molecules | Αlpha-Linolenic Acid Mediates Diverse Drought Responses in Maize (Zea mays L.) at Seedling and Flowering Stages | doi.org/10.3390/molecules27030771 |
4 | 有机酸糖+糖检测 | 南方农业学报 | 梨子有机酸糖+糖检测 | |
5 | 酚类物质靶向检测 | Food Chemistry | Phenolic characterization of fermented jujube puree by HPLC-MS/MS and their release during in vitro dynamic digestion | doi.org/10.1016/j.foodchem.2023.135630 |
6 | 靶向液质:12-氧代植物二烯酸(CAS 85551-10-6)、 2-十二烯二酸(CAS 6402-36-4)肉桂酸(,CAS 140-10-3) |
Journal of Agricultural and Food Chemistry | Autotoxic Ginsenoside Stress Induces Changes in Root Exudates to Recruit the Beneficial Burkholderia Strain B36 as Revealed by Transcriptomic and Metabolomic Approaches | https://doi.org/10.1021/acs.jafc.3c00311 |
7 | 黄酮靶向检测 | Cell reports | The complete reference genome of Tartary buckwheat and its mutation library provide important resources for genetic studies and breeding | https://doi.org/10.1016/j.celrep.2025.115621 |
8 | 高效液相色谱(HPLC)测定:儿茶素组分(8个组分)茶黄素、茶红素、氨基酸、咖啡因含量;分光比色法测定:总酚含量 | Metabolites | Effect of Four Different Initial Drying Temperatures on Biochemical Profile and Volatilome of Black Tea. | https://doi.org/10.3390/metabo15020074 |
9 | 木质素单体G,S,H检测 | Frontiers in plant science | Genome-wide identification of the CAD gene family and functional analysis of putative bona fide CAD genes in tobacco (Nicotiana tabacum L.) | doi: 10.3389/fpls.2024.1400213 |
10 | 木质素单体 | Journal of Experimental Botany | Transcription factors RhbZIP17 and RhWRKY30 enhance resistance to Botrytis cinerea by increasing lignin content in rose petals, Journal of Experimental Botany, 2024;, erad473, | https://doi.org/10.1093/jxb/erad473 |
11 | 褪黑素 | Food Bioscience | Role of exogenous melatonin in quality maintenance of sweet cherryElaboration in links between phenolic and amino acid metabolism | https://doi.org/10.1016/j.fbio.2023.103223 |
12 | ABA检测 | Plant Growth Regulation | Integrative analyses of transcriptome, microRNA-seq and metabolome reveal insights into exogenous melatonin-mediated salt tolerance during seed germination of maize | https://doi.org/10.1007/s10725-024-01138-w |
13 | 液相色谱-质谱联用 | BioMed Research International | Response of Soybean Root to Phosphorus Deficiency under SucroseFeeding:Insight from Morphological and Metabolome Characterizations | https://doi.org/10.1155/2020/2148032 |
14 | NCBI上传和激素检测。 | Plants | Fenaminosulf Promotes Growth and Gall Formation in Zizania latifolia Through Modulation of Physiological and Molecular Pathways | https://doi.org/10.3390/plants14111628 |