Time Course of the Expression of the CaMV35S-GUS Gene in Transgenic Lettuce Plants Grown in a Plant Factory
スポンサーリンク
概要
- 論文の詳細を見る
Leaf lettuce (<I>Lactuca sativa</I> L. cv. 'Greenwave') containing an introduced Cauliflower mosaic virus-35S promoter fused onto the the β-glucuronidase (GUS) gene was grown in a plant factory for 50 days from seeding. Measurements of the GUS expression level of leaves indicated that the GUS protein that accumulated in the leaves was very stable and did not degrade. Consequently, the GUS expression per plant increased exponentially as the cultivation period became longer. This stability of the recombinant protein indicates that a longer cultivation period would be more efficient than the conventional cultivation period in a plant factory. However, the optimum cultivation period depends on the stability of the recombinant protein which is required.
- Asian Agricultural and Biological Engineering Associationの論文
著者
-
Okamura Kenichi
Osaka Branch Okayama Laboratory Nisshoku Corporation
-
Okayama Tsuyoshi
Osaka Branch Okayama Laboratory Nisshoku Corporation
-
Murase Haruhiko
Graduate School Of Agriculture And Biological Science Osaka Prefecture University
-
OKAMURA Kenichi
Osaka Branch, Okayama Lab., NISSHOKU Corporation
関連論文
- The Effect of Photoperiod on β-glucuronidase Gene Expression under Control CaMV-35S Promoter in Transgenic Lettuce
- Precision Irrigation for Sunagoke Moss Production using Intelligent Image Analysis
- An Intelligent Watchdog Model for Quality Control of an Affective Bio-Greening Material
- Estimation of Evapotranspiration Rate Using Neural Network with Plant Motion
- A Dynamic Model for Simulating Recombinant Protein Production in Transgenic Lettuce for Optimum Environmental Control
- A Simulation Model for Heterologous Protein Production in Transgenic Lettuce
- A Simulation for Precision Airflow Control using Multi-Fan in a Plant Factory
- Characteristics of Marine Microalgae as a result of the Change in Light Quality during the Culture Period
- Culturable bacteria in hydroponic cultures of moss Racomitrium japonicum and their potential as biofertilizers for moss production(MICROBIAL PHYSIOLOGY AND BIOTECHNOLOGY)
- Local Wind Control near the Wall Greening by using a Neural Network
- Modeling of forced convection airflow driven by temperature gradient caused by cover plant
- Kansei Graphic User Interface : Development of the Kansei Parameter Extraction Algorithm
- Kansei Graphic User Interface : Virtual Farm : Software development using VRML
- Microprecision control of soil moisture with plug seedlings
- Local environmental control in a confined three-dimensional space
- Machine Vision Applications for Micro-Precision Agriculture
- Determining an ANN pre-treatment algorithm to predict water content of moss using RGB intensities
- Effects of Air Flow on Production of Vaccine Protein against Swine Edema Disease in Transgenic Lettuce
- Effects of Air Flow on Production of Vaccine Protein against Swine Edema Disease in Transgenic Lettuce
- Development of Kansei-based Intelligent Decision Support System (KIDSS) for Quality Evaluation of a Biological Greening Material- Abstractive Parameters for Eliciting Consumer Satisfaction -
- Time Course of the Expression of the CaMV35S-GUS Gene in Transgenic Lettuce Plants Grown in a Plant Factory