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Keyword [Tea plant]
Result: 121 - 140 | Page: 7 of 10
121. Studies On Polyphenol-resisting Characteristics Of Several Kinds Of Agrobacterium And The Demestication Of Polyphenol-resisting Strain
122. Tea Beta-1, 3 - Glucanase Cdna Fragment Cloning And Sequence Analysis
123. Red Berries Camellia Mechanism Of Resistance To Anthracnose
124. Pest Of Tea Harmless Treatment Technology Research And Promotion
125. Adaptability Of Fourteen New Tea Plant Cultivars In Hangzhou And EST-SSR Based Molecular Fingerprint
126. Identification Of N-glycosidase Activity For Ribosome Inactivating Proteins From Camellia Sinensis
127. Study Of Characteristics,Suitable System And ISSR Molecular Mark Of High EGCG Tea Tree Of1005New Strain
128. Study On Antioxidant Activity And Functional Components In57Kinds Of Tea Germplasm Resources
129. Mechanisms Of Lead Uptake/Accumulation And Tolerance In Tea Plant (Camellia Sinensis L.)
130. Study On The Factors Of Affecting Aluminum Cycling Of Tea Plant And Qualities Of Tea Leaves
131. Resistance Mechanisms Of Tea Plant Cultivars To Tea Green Leafhopper
132. Studies On The Biosynthesis Pathways Of Galloylated Catechins And Specific Accumulation Of Phenolic Compounds In Tea Plant[Camellia Sinensis (L.) O. Kuntze]
133. Construction Of An EST Library Of Young Roots Of The Tea Plant (Camellia Sinensis), And Expression Analysis Of Genes Related To Theanine Synthesis
134. Discriminant Analysis Of Production Regions And Tea Plant Cultivars,and Prediction Of Chemistry Components Based On Chemical Fingerprint
135. Quality-Related Constituents In Tea[Camellia Sinensis (L.) O. Kuntze]Leaves As Affected By Nitrogen
136. Function Analysis Of Defence-Related Genes Of Tea Plant (Camellia Sinensis)and Identification And Application Of Its Synomones Induced By Tea Green Leafhopper
137. Genotvpic Difference Of Tea Plant Resisting Aluminum Toxicity And Its Mechanism
138. Effect Of UV-B Radiation On Substance Metabolizations And Their Related Genes Expression In The Harvested Tea Shoots
139. Fluoride Accumulation In Tea Plant And Its Physiological Response Mechanism
140. Studies On The Molecular Mechanism Of Winter Bud Dormancy In Tea Plant(Camellia Sinensis(L.) O. Kuntze)
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