Plant hormone abscisic acid,ABA ELISA Kit

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Plant hormone abscisic acid,ABA ELISA Kit

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文獻引用 (33) 說明書下載

中文名稱：

植物激素脫落酸(ABA)酶聯(lián)免疫試劑盒
貨號：

CSB-E09159Pl
規(guī)格：

96T/48T
價格：

￥4200/￥3000
其他：

CUSABIO Wins 2024 Bioz Rapid Star? Award in the ELISA category

產品詳情
產品評價
引用文獻
相關問答
靶點詳情

產品描述：

植物激素脫落酸(ABA)酶聯(lián)免疫試劑盒（CSB-E09159Pl）為競爭法ELISA試劑盒，定量檢測植物組織樣本中的ABA含量。試劑盒檢測范圍為0.156 μg/ml-10 μg/ml，靈敏度為0.04 μg/mL?？删珳蕶z測植物組織樣本中ABA的含量，適用于植物生理學及分子生物學領域的科研分析；科研人員可通過該產品研究ABA在植物抗逆機制中的動態(tài)變化，解析其在果實成熟、器官脫落或環(huán)境適應中的調控作用，為農作物抗性改良及植物激素網絡研究提供可靠數據支持。本品僅用于科研，不用于臨床診斷，產品具體參數及操作步驟詳見產品說明書。
縮寫：

ABA
種屬：

Plant
樣本類型：

plant tissues
檢測范圍：

0.156 μg/ml-10 μg/ml.
靈敏度：

0.04 μg/mL
反應時間：

1-5h
樣本體積：

50-100ul
檢測波長：

450 nm
研究領域：

Others
測定原理：

quantitative
測定方法：

Competitive

精密度：

回收率：

The recovery of plant ABA spiked to levels throughout the range of the assay in various matrices was evaluated. Samples were diluted prior to assay as directed in the Sample Preparation section.

Sample Type	Average % Recovery	Range
Xylem saps from plants (n=5)	95	89-98
Crude extracts (n=5)	95	90-100

標準曲線：

These standard curves are provided for demonstration only. A standard curve should be generated for each set of samples assayed.

μg/ml	OD1	OD2	Average
10	0.124	0.126	0.125
5	0.213	0.228	0.221
2.5	0.357	0.361	0.359
1.25	0.498	0.506	0.502
0.625	0.686	0.701	0.694
0.312	1.244	1.268	1.256
0.156	1.510	1.534	1.522
0	2.241	2.297	2.269

數據處理：

ELISA操作視頻及標曲繪制軟件下載
貨期：

3-5 working days

Disruption of Poly (ADP-ribosyl) ation Improves Plant Tolerance to Methyl Viologen-Mediated Oxidative Stress via Induction of ROS Scavenging Enzymes NO Kalinina, N Spechenkova, I Ilina,International Journal of Molecular Sciences,2024
Application of Synephrine to Grape Increases Anthocyanin via Production of Hydrogen Peroxide, Not Phytohormones M Suzuki,/,2024
Yield improvement with antitranspirant application in droughted wheat associated with both reduced transpiration and reduced abscisic acid W Mphande,/,/
Physiological and metabolomic responses of the ethylene insensitive squash mutant etr2b to drought J Iglesias-Moya,Plant science,2023
Does the Grafting Affect Grapevine Rootstock Behavior Under Drought? G De Lorenzis,SSRN,2023
Metabolic and film antitranspirants both reduce drought damage to wheat yield despite having contrasting effects on leaf ABA W Mphande,Journal of Agronomy and Crop Science,2023
Ethylene-Insensitive Mutation Etr2b Confers Drought Tolerance in Squash by Promoting the Accumulation of Osmoprotectant and Antioxidant Metabolites M Jamilena,/,2023
Physiological and Transcriptomic Evaluation of Drought Effect on Own-Rooted and Grafted Grapevine Rootstock (1103P and 101-14MGt) D Bianchi,Plants,2023
The ethylene receptor mutation etr2b reveals crosstalk between ethylene and ABA in the control of Cucurbita pepo germination J Iglesias,Physiologia plantarum,2023
Effects of antibiotics stress on root development, seedling growth, antioxidant status and abscisic acid level in wheat (Triticum aestivum L.) L Li,Ecotoxicology and environmental safety,2023
Overexpression of a C3HC4-type RING E3 ligase gene, OsRFPHC-13, improves salinity resistance in rice, Oryza sativa, by altering the expression of Na+/K+ transporter genes JH Kim,Environmental and Experimental Botany,2023
Metabolism of crown tissue is crucial for drought tolerance and recovery after stress cessation in Lolium/Festuca forage grasses D Perlikowski,Journal of Experimental Botany,2022
Efficient Total Synthesis and Herbicidal Activity of 3-Acyltetramic Acids: Endogenous Abscisic Acid Synthesis Regulators X Liu,Journal of Agricultural and Food Chemistry,2022
Pre- and Post-Harvest Conditions Affect Polyphenol Content in Strawberry (Fragaria × ananassa) R Koyama,Plants,2022
Scavenging of nitric oxide up-regulates photosynthesis under drought in Festuca arundinacea and F. glaucescens but reduces their drought tolerance D Perlikowski,Scientific reports,2022
Transcriptional reprogramming of the bud-mutation loquat YongLu emerging freezing resistant F Chen,Research Square,2020
Yield improvement by antitranspirant application in droughted wheat is associated with reduced endogenous abscisic acid concentration W Mphande,Agricultural Water Management,2020
Early events leading to water deficit responses in the liverwort Marchantia polymorpha D Godinez-Vidal,Environmental and Experimental Botany,2020
Seasonal variations of epiphytic flora, abscisic acid production and physiological response in the brown alga Cystoseira foeniculacea (Linnaeus) Greville A KOZAK,Cah. Biol,2020
Adjustment of photosynthetic activity to drought and fluctuating light in wheat M Grieco,Plant Cell Environ,2020
Physiological and anatomical changes in tomato roots in response to low water stress LH Hernandez-Espinoza,Scientia Horticulturae,2020
Efficient root metabolism improves drought resistance of Festuca arundinacea Perlikowski D, et al,Plant and Cell Physiology,2019
An aquaporin gene MaPIP2-7 is involved in tolerance to drought, cold and salt stresses in transgenic banana (Musa acuminata L.) Xu Y, et al,Plant Physiology and Biochemistry,2019
Structural and metabolic alterations in root systems under limited water conditions in forage grasses of Lolium-Festuca complex PerlikowskiDawid, et al,Plant science,2019
The arginine decarboxylase gene ADC1, associated to the putrescine pathway, plays an important role in potato cold-acclimated freezing tolerance as revealed by transcriptome and metabolome analyses Kou S.et al,plant journal,2018
Film antitranspirant application to enhance spring drought tolerance of oilseed rape (Brassica napus L.) Michele Faralli .et al,/,2018
Comparative transcriptome analysis reveals an early gene expression profile that contributes to cold resistance in Hevea brasiliensis (the Para rubber tree) Cheng H.et al,Tree Physiol,2018
Wilted cucumber plants infected by Fusarium oxysporum f. sp. cucumerinum do not suffer from water shortage Yuming Sun.et al,Annals of Botany,2017
Canopy application of polymers over the reproductive phase enhances yield components and yield-related physiological traits of water stressed oilseed rape Michele Faralli.et al,Crop and Pasture Science,2016
Rhizobacterial Strain Bacillus megaterium BOFC15 Induces Cellular Polyamine Changes that Improve Plant Growth and Drought Resistance. Zhou C.et al,Int J Mol Sci.,2016
Overexpression of Rosa rugosa anthocyanidin reductase enhances tobacco tolerance to abiotic stress through increased ROS scavenging and modulation of ABA signaling. Luo P. et al,Plant Sci,2016
Abscisic Acid and Gibberellin Control Seed Germination Through Negative Feedback Regulation By MOTHER OF FT AND TFL1 XI WANYAN ,Ph.D. Thesis,2010
FTO-dependent function of N6-methyladenosine is involved in the hepatoprotective effects of betaine on adolescent mice Chen J. et al,J Physiol Biochem,2015

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■ 常見問題解答

When the samples are ground, does it matter how quickly they are processed – I have hundreds of samples and I think I will have to grind at least 96/per kit before processing a set. Is the time taken after grinding before processing further limited, just in case the sample changes its chemical composition?
My samples are wheat leaves grown under drought conditions. Some of them are small collections and I am concerned they may not reach 0.5 g as stated in the protocol. If say the sample is less than 05.g, e.g. 0.4g, does that mean I will need to use 3.6 ml of the extraction buffer, since 0.5 g to 4.5 ml is 1: 9 in ratio terms.

Thanks for your inquiry. There is no strict requirement on the grind speed, but it would be better to grind the sample as faster as you can.
It is recommended to grind the sample well and then process further on testing soon.
As you mentioned that you need to prepare large QTY sample, here advice you to store the first prepared sample at 2-8 ℃。 Pls kindly note this just can be stored for one day.
If you do not make the experiment at the same time, really advice you to prepare the sample partially according to your test request.
You can check your experiment schedule and control the time for this.
In theory, the sample volume can be adapted. Generally it is recommended to take 0.5g to prepare the sample. If it is too less, the sample will not be detected.
And dear, if your sample is really not abundant, here are 2 advice: first is that pls try to collect more sample, second is that change the sample based on the ratio terms 1:9.

The freshly stored wheat leaf samples at -80 degrees Celsius will need to be freeze-dried – please state for how this needs to be. In addition, how is the grinding performed? What tools are used?

Thanks for your inquiry.
Yes, the freshly stored wheat leaf samples at -80 degrees Celsius will need to be freeze-dried. You already keep them at -80 degrees Celsius, the samples are through the freeze-dried process indeed.
When do make the test, pls take 0.5g out and use the mortar usually used in lab to grind the freeze-dried samples.
And then check the detailed steps"Crude extracts " according to the manual to arrange the preliminary experiment.

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最新研究進展：

植物激素脫落酸（Abscisic Acid，ABA）是一種重要的植物激素，具有調節(jié)植物生長發(fā)育、應對環(huán)境脅迫等多種生理作用。近年來，對ABA的研究逐漸深入，以下是最新的研究進展：
ABA在植物抗旱適應中的作用機制得到了深入研究。研究發(fā)現(xiàn)，ABA能夠調節(jié)植物根系的生長和分布，使根系更深入土壤中尋找水源。同時，ABA還能夠促進植物蒸騰作用的減緩，從而減少水分流失。

ABA的代謝和信號轉導途徑研究取得了新進展。研究人員已經發(fā)現(xiàn)多種ABA受體，并且探索了它們與ABA的結合機制。同時，ABA代謝途徑中的關鍵酶類的作用機制也得到了更深入的研究。

ABA在植物與環(huán)境互動中的作用機制也被深入探究。例如，研究發(fā)現(xiàn)ABA能夠調節(jié)植物對鹽堿脅迫的響應，同時還可以通過調節(jié)植物光合作用等途徑來增加植物對環(huán)境的適應能力。

ABA的應用研究也取得了一定進展。ABA已經被廣泛用于植物生長調節(jié)劑和抗旱劑等領域，例如在提高作物耐旱性、改善果實品質等方面都有著廣泛的應用前景。

Intra-assay Precision (Precision within an assay): CV%<10%

Three samples of known concentration were tested twenty times on one plate to assess.

Inter-assay Precision (Precision between assays): CV%<20%

Three samples of known concentration were tested in twenty assays to assess.