Plant Genotyping Equipment Market Size, Competitive Landscape and Market Forecast - 2029

SKU: DMAG5121 | Last Updated On: Jul 15 2022 | Available Formats

> Global Plant Genotyping Equipment Market Expected to reach a high CAGR By 2029: DataM Intelligence

Global Plant Genotyping Equipment Market is Segmented By Equipment (SNP Genotyping Equipment, Real-time PCR Instrument, DNA Analyzer, Liquid Handler, Others), By End Use (Greenhouse, Field, Laboratory), By Application (Plant Research, Breeding, Product development, Quality Assessment), and by Region (North America, Latin America, Europe, Asia Pacific, Middle East, and Africa) – Share, Size, Outlook, and Opportunity Analysis,  2022-2029

 

Market Overview:

The global plant genotyping equipment market valued USD xx million in 2021 and is forecast to reach USD xx million by 2029, growing at a CAGR of xx% during the forecast period (2022-2029).

Plant genotyping is defined as the process of mapping genes and metabolic pathways among plants. Genomic variation is an essential part of plant genetics and crop improvement. DNA testing in plant tissues is an important process in agricultural research, including crop trait development and seed quality control. Scientists in the plant development community need tools to address various issues, including disease resistance, transgenic seed development, yield improvement, population genetics, and plant physiology. Analyzing high-quality DNA from leaves, seeds, and other plant material is essential for reproducible DNA analysis by quantitative PCR, genotyping by sequencing (GBS), or next-generation sequencing (NGS) methods. This genotyping summarizes the current state of genotyping and next-generation DNA sequencing technologies and then provides the next level of studies where next-generation DNA sequencing has been used in plant species for genotyping application.

Source: DataM Intelligence Analysis (2021)

Market Dynamics:

Growing adoption of modern technology in agriculture is fueling plant genotyping equipment demand

The primarily global market is driven by the mainly significant growth of biotechnology in the agriculture field. In the processing development of agriculture biotechnology, modern techniques can transform the framework of the agricultural sector. The genetic engineering techniques genotyping of modified crops is one of the main outcomes of genetic engineering techniques with profound claims to provide new genetic traits in plants that could express insect resistance, pest resistance, and high nutrient value. Genotyping has the potential to contribute significantly to agricultural innovation by bringing radical transformations in society, guaranteeing food security, sustainable agriculture, and high crop yields. On the other hand, increasing the global population and increasing the fund activities to develop new technologies associated with research and development for sophisticated sequencing tools further contribute to market growth.

Market Segmentation:

SNP genotyping equipment segment held highest market revenue share of xx% in the year 2021

Based on the equipment, SNP genotyping equipment held the largest share as of 2021. Single nucleotide polymorphism (SNP) mainly causes genetic diversity among individuals of the species and can occur at different frequencies in different species throughout the entire genome. SNPs can cause phenotypic diversity among individuals, such as the color of different plants or fruits, ripening, flowering time adaptation, crop quality, grain yield, or tolerance to various abiotic and biotic factors. It can also cause changes in amino acids in the exon of a gene. The rapid increase in sequence technologies, including SNP genotyping and genome sequencing, has given new and powerful approaches to mapping complex features and identifying genes that cause this complexity. This equipment in plant genetics and product development is becoming popular. With these new techniques, it is an important advantage to create experimental populations of germplasm collections and homozygous individuals in plants in a short period. SNP is also of interest to researchers in genomics and life science studies. Next-generation sequencing (NGS) techniques have proved to be exceptional tools for identifying, assessing, and validating genetic markers. As a result, they have facilitated the development of array-based genotyping platforms and genome-wide SNP markers.

Based on application, genotyping-by-sequencing (GBS) is a way to quickly identify genetic variants and genotype samples. New possibilities in plant genetics and plant breeding studies reduce genome complexity by using restriction enzymes to divide the genome into fragments whose ends are sequenced on short-read sequencing platforms. But it's cost-effective. It produces extensive missing data and needs complex bioinformatics analysis. GBS is most widely used on crop plant genomes, and because crop plants have highly variable ploidy and repeat content, the performance of GBS analysis software can vary by target organism. Moreover, recent advancements in GBS have led to the development of the marker-assisted selection (mas) tool to accelerate crop improvement and plant breeding. This tool has been widely used in plant breeding to enhance crop quality, yield, and tolerance to abiotic or biotic stresses.

Geographical Penetration:

North America is expected to dominate the global plant genotyping equipment market in the year 2021

By geography, North America is expected to dominate the global plant genotyping equipment market in 2021, growing with a CAGR of xx% during the forecast period. The plant genotyping equipment market in North America is expected to witness significant growth due to increasing plant genotyping research activities. The presence of strong players such as Agilent Technologies, Inc., and Illumina, inc. These companies' creation engines focused on partnering with entrepreneurs to build breakthrough genomics startups are propelling the market growth. Moreover, given its natural resources, Canada has always been a strong contender in the agriculture industry. The Canadian government has shown a consistent focus on R&D investment in agriculture. This has resulted in its extensive network of research centers and universities involved in producing Ag-tech research.

Source: DataM Intelligence Analysis (2021)

Competitive Landscape:

The key players operating in the global plant genotyping equipment market are heavily investing in research and development activities to innovate novel products and expand their product portfolio. For instance, Syngenta is a Basel, Switzerland-based company. It is a leading global provider of agricultural science and technology, in particular seeds and crop protection products, and it has a mission to bring solutions – be it seeds, chemistry, or digital tools to help with decision making – to growers around the world, is using Thermo fisher scientific genotyping platforms to provide necessary genetic data for its breeding pipeline to rapidly select for new varieties with improved yield potential. In October 2021, NRgene, an Israel-based company that is a worldwide leader in ai-based genomic analysis for research and agricultural breeding, is pleased to announce the launch of soy SNpro. This is the first product in a line of optimized pre-designed SNP sets for genotyping (DNA tests) of various crops that will significantly improve breeding program efficiency. In September 2020, NRgene was a worldwide leader in ai-based genomic analysis for research and agricultural breeding. The launch of SNper is announced as a new product that optimizes genotyping processes and gathers more information while reducing genotyping costs by up to 70%.

COVID-19 Impact:

Negative impact on the global plant genotyping equipment market

The COVID-19 pandemic has negatively impacted the global plant genotyping market. During a pandemic, travels ban imposed by government bodies across the globe resulted in disruption of the supply chain of genotyping types of equipment. Additionally, the imposition of lockdown resulted in a temporary shutdown of the plant genotyping lab, which is hampering the demand for equipment, and also, most of the research studies stepped backward due to closed the laboratories.

Why Purchase the Report?

  • Understand the current market scenario and viability of global plant genotyping equipment over the forecast period
  • Visualize the composition of the global plant genotyping equipment market in terms of equipment, end use, and application to identify major players, growth potential, and market strategies
  • Identify the key regulations prevailing in the market and understand their impact on the market over the forecast period
  • Understand the key business factors such as market competition, product pricing, new product developments, and patent filings pertaining in the market

What we offer?

  • Pdf report with the most relevant analysis cogently put together after exhaustive qualitative interviews and in-depth market study
  • Excel data sheet with valuable data points of the global plant genotyping equipment market – Regional and Country level segmentation
  • Product mapping in excel for the key products of all major market players
  • Market share analysis covering business revenues ($) and revenue share (%) of key market players

The global plant genotyping equipment market report would provide an access to approximately 61 market data tables, 52 figures, and 180 pages

Target Audience:

  • Plant Genotyping Equipment Manufacturers
  • Agriculture Biotechnology Industry
  • Education & Research Institutes
  • Research Professionals
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