Our Programs

HPI is focused on three main areas: identification and prioritization of targets for scientific investigation; development and validation of concepts for new products and production platforms; and production of new knowledge that advances plant design capabilities and enables development, commercialization and delivery of new products.

HPI applies advanced technology for gene discovery, trait validation and crop improvements to deliver new products and production platforms that target unique, high-value market opportunities in an integrated fashion.

Doubled Haploid Production

HPI's doubled haploid production is helping wheat breeders across Kansas and around the world to develop genetically pure, improved wheat lines in as little as one year – that's up to five years faster than possible with conventional breeding methods.

Trait Development

Advanced genetic design of wheat and sorghum provides a unique opportunity to combine plant design platforms, cutting edge research and market analysis to develop novel traits.

Contract Research

HPI has a staff of experienced, educated people who are qualified to perform contract research for your organization.  We have access to the resources in the Kansas Wheat Innovaion Center and Kansas State University to take on the project that your staff does not have time to complete.  Make us an extension of your staff.  Call Rob or Asif to disucss what we can do for you.

Wide Crossing

HPI's wide crossing services are being used by breeders to introgress traits from ancient wheat and wild wheat relatives housed in the Wheat Genetics Resource Center into their program's material.  HPI performs this work on per-completed-line basis where you only pay when we deliver seeds. 

Wheat Quality Resource Center

The Wheat Quality Resource Center is a program designed to rapidly identify markers for end product quality. Scientists in the WQRC work confidentially with companies to identify molecular markers for quality using the companies’ own proprietary quality tests. These proprietary markers give the organizations a way to directly inform breeders with targets to improve wheat quality.


With the addition of the Wheat Quality Resource Center, Heartland Plant Innovations can now offer turnkey variety development from rapid trait identification through parent crossing and double haploid production.


Science and Policy

Manipulation of Guaiacyl and Syringyl Monomer Biosynthesis in an Arabidopsis Cinnamyl Alcohol Dehydrogenase Mutant Results in Atypical Lignin Biosynthesis and Modified Cell Wall Structure

Abstract: Modifying lignin composition and structure is a key strategy to increase plant cell wall digestibility for biofuel production.

Release Date: 
Thu, 10/08/2015

Loss of ferulate 5-hydroxylase leads to Mediator-dependent inhibition of soluble phenylpropanoid biosynthesis in Arabidopsis

Abstract: Phenylpropanoids are phenylalanine-derived specialized metabolites and include important structural components of plant cell walls such as lignin and hydroxycinnamic acids (HCAs), as well as ultraviolet and visible light-absorbing pigments, such as hydroxycinnamate esters (HCEs) and ant

Release Date: 
Thu, 10/08/2015

Induction medium osmolality improve microspore embryogenesis in wheat and triticale. In Vitro Cellular & Developmental Biology-Plant.

Abstract: The objective of this study was to determine the effect of induction medium osmolality on embryogenesis and green plant production in wheat and triticale. Isolated microspores of wheat and triticale were subjected to a range of osmolality (300–500 mOsmkg−1) using mannitol.

Release Date: 
Tue, 03/17/2015