Sucrose Synthetase(SS) Activity Assay Kit
Cat.No:BC0585 Solarbio
Detection Method:Spectrophotometer/Microplate Reader
Storage:Store at -20℃,6 months
Qty:
Size:
{{cart_num}}
My Cart>
Biochemical Assay Kits >
Carbohydrate Metabolism Series >
Sucrose Series >
Sucrose Synthetase(SS) Activity Assay KitDetection Method:Spectrophotometer/Microplate Reader
Storage:Store at -20℃,6 months
Qty:
Size:
Name | Sucrose Synthetase(SS) Activity Assay Kit |
Detection Method | Spectrophotometer/Microplate Reader |
Storage | Store at -20℃,6 months |
Unit | Kit |
Specification | 100T/48S |
Determination of Significance:
Sucrose is the main form of transport of photosynthetic products from source (leaf, etc.) to "sink" organs. Sucrose Synthetase (SS, EC 2.4.1.13) catalyzes the synthesis of sucrose from free fructose and glucose in plants.
Measurement Principle:
SS catalyzes the reaction between free fructose and glucose donor UDPG to generate sucrose, and the reaction between sucrose and resorcinol can show color changes. There is a characteristic absorption peak at 480 nm, the enzyme activity of SS is proportional to the color.
Self Provided:
Centrifuge, water-bath, adjustable pipette, spectrophotometer/microplate reader, micro quartz cuvette/ 96 well flat-bottom plate, ice and mortar/homogenizer.
Note:Product information may be optimized and upgraded. Please refer to the actual label information for accuracy.
Remark:These protocols are for reference only. Solarbio does not independently validate these methods.
Note:
1. The products are all for scientific research use only. Do not use it for medical, clinical diagnosis or treatment, food and cosmetics, etc. Do not store them in ordinary residential areas.
2. For your safety and health, please wear laboratory clothes, disposable gloves and masks.
3. The experimental results may be affected by many factors, after-sale service is limited to the product itself and does not involve other compensation.
Sorry, there is no experimental images.
Sorry, there is no more information.
Analysis of the molecular composition of humic substances and their effects on physiological metabolism in maize based on untargeted metabolomics
Click to check >>Author:Wang Yuhong, Lu Yanli, Wang Lei, Song Guipei, Ni Lu, Xu Mengze, Nie Caie, Li Baoguo, Bai Youlu
IF:6.6270
Publish_to:Frontiers in Plant Science
PMID:37284724
Exogenously applied zinc improves sugar-acid profile of loquat (Eriobotrya japonica Lindl.) by regulating enzymatic activities and expression of their metabolism-related genes
Click to check >>Author:Muhammad Moaaz Ali, Shaista Gull, Xiaobo Hu, Youming Hou, Faxing Chen
IF:6.5000
Publish_to:PLANT PHYSIOLOGY AND BIOCHEMISTRY
PMID:37329690
Transcriptome and Metabolome Reveal Distinct Sugar Accumulation Pattern between PCNA and PCA Mature Persimmon Fruit
Click to check >>Author:Weijuan Han, Yiru Wang, Huawei Li, Songfeng Diao, Yujing Suo, Taishan Li, Peng Sun, Fangdong Li, Jianmin Fu
IF:6.2080
Publish_to:INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
PMID:37239943
Coordinated responses of leaf and nodule traits contributed to the N accumulation of relay intercropped soybean
Click to check >>Author:Ping CHEN, Qing DU, Ben-chuan ZHENG, Huan YANG, Zhi-dan FU, Kai LUO, Ping LIN, Yi-lin LI, Tian PU, Tai-wen YONG, Wen-yu YANG
IF:4.8000
Publish_to:Journal of Integrative Agriculture
PMID:
Foliar application of fish protein peptide improved the quality of deep-netted melon
Click to check >>Author:Hui Lei, Jing Zhang, Conghui Jia, Jiajia Feng, Lidan Liang, Qishu Cheng, Ting Li, Jinghong Hao
IF:2.2770
Publish_to:JOURNAL OF PLANT NUTRITION
PMID: