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Leptosphaeria libanotis胡萝卜褐腐病菌PCR试剂盒上海圻明生物优势供应。更多产品资料欢迎免费咨询。
One of the many important uses of PCR technology is that it can be used to label DNA probes with high specific activity. PCR technology has high specificity, and can synthesize probe DNA fragments in quantities within 1~2h if [α-32P]dNTP or other markers are added to the substrate
dNTPs, the probe DNA can be well labeled during DNA synthesis, and the incorporation rate of the marker can be as high as 70%~80%. Therefore, PCR labeling technology is particularly suitable for large-scale detection and non-radiolabeling. The disadvantage of this method is that a specific pair of PCR primers is synthesized.
Labeling can also be achieved by using small fragments prepared from probe DNA as primers.
Solution preparation
1. Prepare a stock solution
Unless otherwise stated, all unused stock solutions should be divided into disposable aliquots and stored at -20 °C after preparation. Avoid repeated freeze-thaw cycles.
1.1* Acid Stock Solution (125X):
Add 20 μL DMSO to *ate (component B) to make a 125X* acid stock solution.
2. Prepare standard solutions
*Salt standard solution
Add 50 μL of 1 mM KH2PO4 (Component C) to 950 μL of deionized water or enzyme reaction buffer to give a 50 μM * saline standard solution (PS7). A 50 μM * saline standard solution (PS7) was taken and serially diluted 1:2 to obtain a serially diluted phosphate standard with deionized water or enzyme reaction buffer.
3. Prepare a working solution
Add 20 μL of 125X* stock solution to 2.5 mL of sterile H2O and mix well to make a working solution of *salt. Avoid potential Pi contamination. Note: Avoid direct exposure of *salts (component B) to light. Due to the high sensitivity of this assay to Pi, it is extremely important to use Pi-free labware and reagents.
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文献和实验水稻烂秧在全国各稻区均有发生。是由病原物侵染或非病原物影响,引起水稻烂种、烂芽和死苗的总称。可分为侵染性和非侵染性(生理性)两类,非侵染性烂秧主要指由不良环境所造成;侵染性烂秧则指由不良环境诱致腐霉菌、绵腐菌、镰刀菌等侵染所致。 [诊断] 由于引起水稻烂秧的病因不同,症状有很大差异。烂种主要指稻谷播种后种胚变黑、发臭,甚至腐烂的现象。烂芽指播种后稻芽未能转青即死亡的现象。烂芽有生理性烂芽,常见的症状有淤籽、露籽、黑根和倒芽等生理性烂秧。侵染性烂秧由绵腐病菌侵染所致幼芽受害部分
。 叶状体养成过程常见的病害有:赤霉病、壶状菌病、白腐病、绿变病、癌肿病和烂苗病。易发生在海区筏架排放过多时。赤腐病由腐生霉引起,发病时叶状体上有红色小斑点,后迅速扩大,叶状体不断从病斑处脱落。可用酸碱性表面活化剂、非离子表面活化剂等杀死菌丝,也可在发病初期增加叶状体干出时间抑制发病,冷藏法亦可除去部分病菌。壶状菌病在中国尚未发现。发病时肉眼不易察觉,病情较重时叶状体褪色且前部边缘出现黄色病斑,一旦发病不易控制。日本用核染色法及时发现病菌,将紫菜网帘入库冷藏,以减少在海区内感染蔓延。白腐病因叶状
上,初期病斑黑揭色,近圆形,发生于叶缘处的病斑呈半圆形。后迅速扩展成椭圆大斑,边缘黑褐色,中央逐渐变为浅褐,潮湿时,叶背或叶面产生红褐色突起小点,呈稀疏轮状排列。该病多发生于叶片中下部,易引起病斑以上的叶段枯死。病原一般自伤口侵人,对嫩叶也有直接侵人,在气温适宜及湿度较高的条件下易发生此病。寒兰、春兰、建兰和蕙兰易感病,尤以寒兰病为重。防治方法参照兰花炭疽病的防治方法。 (4)黑腐病:被害植株叶片上出现半透明的小斑点,几乎遍布全叶,病斑扩大后殃及全株(包括根部)。成株被害后,2-5 天内叶或假鳞茎
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