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Lifeasible Updated Its Offerings for Insecticidal Proteins

Lifeasible, a leading provider of innovative agricultural solutions, is pleased to announce the expansion and enhancement of its offerings for insecticidal proteins. With a commitment to sustainable and effective pest control, Lifeasible continues to develop and provide cutting-edge solutions to address the challenges faced by farmers and growers worldwide.


Insect pests pose a significant threat to global agriculture, causing substantial yield losses and economic damage. Traditional methods of pest control often involve the use of chemical pesticides, which can have adverse effects on the environment and human health. In response to these challenges, Lifeasible has been at the forefront of developing insecticidal proteins as a safe and sustainable alternative.


Insecticidal proteins are naturally occurring compounds derived from various sources, including bacteria, plants, and fungi. These proteins have shown remarkable efficacy in controlling a wide range of insect pests while minimizing the impact on beneficial organisms and the environment. Lifeasible's updated offerings for insecticidal proteins include a diverse range of products that cater to the specific needs of different crops and pests.


One of the key highlights of Lifeasible's updated offerings is the inclusion of novel insecticidal proteins derived from Bacillus thuringiensis (Bt). Bt proteins have long been recognized for their exceptional insecticidal properties and have been widely used in organic and integrated pest management systems. Lifeasible's Bt-based insecticidal proteins offer enhanced efficacy against a broad spectrum of insect pests, including caterpillars, beetles, and mosquitoes.


Furthermore, Lifeasible has expanded its range of insecticidal proteins derived from plant sources. These proteins are extracted from plants that naturally produce toxins to defend against insect attacks. By harnessing the power of these plant-derived proteins, Lifeasible provides farmers with an effective and environmentally friendly solution to combat pests. The updated offerings include: Recombinant Bacillus thuringiensis cry3B Protein, Recombinant Bacillus thuringiensis cry1ab Protein, Recombinant Bacillus thuringiensis Vip3A Protein, Recombinant Bacillus thuringiensis Cry1F Protein, Recombinant Bacillus thuringiensis Vip3Aa19 Protein, Recombinant Bacillus thuringiensis Cry1Ia Protein…


Lifeasible's commitment to innovation and sustainability is reflected in its continuous research and development efforts. The company's team of scientists and experts work tirelessly to identify and develop new insecticidal proteins with improved efficacy and specificity. By staying at the forefront of scientific advancements, Lifeasible ensures that farmers have access to the latest and most effective solutions for pest control.


"We are excited to announce the expansion of our offerings for insecticidal proteins," said Isla, one of the representative speakers from Lifeasible. "At Lifeasible, we are dedicated to providing farmers with sustainable and effective solutions to protect their crops. Our updated range of insecticidal proteins reflects our commitment to innovation and our mission to contribute to a more sustainable agriculture."


To know more detailed information about the insecticidal proteins provided by Lifeasible, please visit


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Shelf Life Testing: A Critical Step in Food Safety

What is shelf life testing?

Food shelf life testing is a process used to determine how long a food product will remain safe to eat and retain its desired quality. The shelf life of a food product is affected by a number of factors, including the type of food, the packaging, the storage conditions, and the intended use.


How to determine shelf life?

The shelf life of a product can be determined using a variety of methods, including:


Accelerated shelf life testing (ASLT)

This method uses controlled conditions, such as higher temperatures or humidity, to speed up the aging process. ASLT can be used to get results more quickly, but it is important to note that the results may not be directly applicable to real-world storage conditions.


Real-time shelf life testing (RTSLT)

This method uses actual storage conditions to test the shelf life of a product. RTSLT can be more time-consuming than ASLT, but it is the most accurate way to determine the shelf life of a product.


Microbiological testing

This method tests for the presence of microorganisms, such as bacteria and mold, that can spoil food. Microbiological testing can be used to determine the shelf life of a product, but it is important to note that not all microorganisms can be detected using this method.


Sensory evaluation

This method uses human panelists to evaluate the appearance, taste, smell, texture, and overall quality of a food product. Sensory evaluation can be used to determine the shelf life of a product, but it is important to note that the results may vary depending on the panelists.


Comparison of Real-time shelf life testing and Accelerated shelf life testing


Real-time shelf life testing (RTSLT)

Accelerated shelf life testing (ASLT)


Actual storage conditions

Controlled conditions, such as higher temperatures or humidity





More accurate

Less accurate


More applicable to real-world storage conditions

Less applicable to real-world storage conditions


More expensive

Less expensive


What are the factors that affect the shelf life of food?

The shelf life of a food product is affected by a number of factors, including:

  • The type of food: Some foods, such as fruits and vegetables, are naturally more perishable than others, such as canned goods.
  • The packaging: The packaging can help to protect food from moisture, oxygen, and light, which can all contribute to spoilage.
  • The storage conditions: The storage conditions, such as temperature and humidity, can also affect the shelf life of food.
  • The intended use: The intended use of the food can also affect the shelf life. For example, food that is intended to be cooked will have a longer shelf life than food that is intended to be eaten raw.


How much does shelf life testing cost?

The cost of food shelf life testing can vary depending on a number of factors, including:


The type of product: The cost of testing a perishable product, such as fresh fruits and vegetables, will be higher than the cost of testing a non-perishable product, such as canned goods.


The complexity of the test: The more complex the test, the higher the cost will be. For example, a test that includes microbiological analysis will be more expensive than a test that only includes sensory evaluation.


The number of samples: The more samples that are tested, the higher the cost will be.


The length of the test: The longer the test, the higher the cost will be.


The laboratory: The cost of testing will vary depending on the laboratory that is used. Some laboratories are more expensive than others.


In general, the cost of food shelf life testing can range from a few hundred dollars to several thousand dollars.


Here are some tips for reducing the cost of food shelf life testing:

  • Choose a product that is relatively stable.
  • Use a simple test method.
  • Test a small number of samples.
  • Conduct the test over a shorter period of time.
  • Choose a less expensive laboratory.







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