INSTITUTE OF GRAIN CROPS, HUBEI ACADEMY OF AGRICULTURAL SCIENCES (20240218389). METHODS FOR CONSTRUCTING TRANSGENIC PLANTS COMPRISING TaPDIL4-1B GENE simplified abstract
Contents
METHODS FOR CONSTRUCTING TRANSGENIC PLANTS COMPRISING TaPDIL4-1B GENE
Organization Name
INSTITUTE OF GRAIN CROPS, HUBEI ACADEMY OF AGRICULTURAL SCIENCES
Inventor(s)
METHODS FOR CONSTRUCTING TRANSGENIC PLANTS COMPRISING TaPDIL4-1B GENE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240218389 titled 'METHODS FOR CONSTRUCTING TRANSGENIC PLANTS COMPRISING TaPDIL4-1B GENE
The embodiments of the present disclosure involve genetic engineering technology, specifically a method for creating a transgenic plant with a tapdil4-1b gene. The cDNA sequence of the tapdil4-1b gene is provided in Seq ID No: 1. This technology extracts the tapdil4-1b gene from wheat for the first time and introduces it into plants through mediated manners. The gene enhances plant resistance to scab, making it a valuable candidate for developing new crop varieties with resistance to head blight.
- Tapdil4-1b gene extracted from wheat for the first time
- Gene transferred into plants through mediated manners
- Enhances plant resistance to scab
- Provides candidate genes for developing new crop varieties with resistance to head blight
- Seq ID No: 1 contains the cDNA sequence of the tapdil4-1b gene
Potential Applications: - Development of new crop varieties with enhanced resistance to head blight - Improvement of plant health and productivity - Contribution to sustainable agriculture practices
Problems Solved: - Lack of effective resistance to scab in plants - Need for innovative genetic engineering solutions in crop breeding - Challenges in developing crops with enhanced disease resistance
Benefits: - Increased crop yield and quality - Reduced reliance on chemical pesticides - Enhanced sustainability in agriculture
Commercial Applications: Title: "Enhancing Crop Resistance with Tapdil4-1b Gene Technology" This technology can be utilized by agricultural biotech companies, seed producers, and farmers to develop and cultivate disease-resistant crop varieties, leading to improved agricultural productivity and profitability.
Questions about Genetic Engineering Technology: 1. How does the tapdil4-1b gene enhance plant resistance to scab? The tapdil4-1b gene activates defense mechanisms in plants, making them more resilient to scab infections.
2. What are the potential long-term effects of introducing the tapdil4-1b gene into crop plants? Introducing the tapdil4-1b gene can lead to the development of sustainable crop varieties with enhanced disease resistance, contributing to long-term agricultural sustainability.
Original Abstract Submitted
the embodiments of the present disclosure relate to the field of genetic engineering technology, and in particular, to a method for constructing a transgenic plant comprising a tapdil4-1b gene. a cdna sequence of the tapdil4-1b gene is shown in seq id no: 1. the embodiments of the present disclosure apply the genetic engineering technology to obtain the tapdil4-1b gene from wheat for the first time, and transfer the gene into plants through -mediated manners. this gene can make plants have strong resistance to scab, which provides good candidate genes for the development and breeding of new crop varieties with resistance to head blight.
