Nexgen Plants Pty Ltd The Virus Trait Company March 2015.

Slides:

Advertisements

Similar presentations

Advances in Genetics Chapter 5, Section 3.

Advertisements

Ch 13 Genetic Engineering

IPR, Seeds and Farmers’ Rights EMERGING ISSUES - Ditdit Pelegrina, SEARICE.

Centre for Genetic Resources, the Netherlands Traditional breeding: limitations Bert Visser Copenhagen, 13 december 2005.

:ProtYield PROJECT TITLE: PROTEIN CONTENT Vs YIELD IN LEGUMES : RELEASING THE CONSTRAINT.

Genetic Engineering. Vocabulary Gene – sequence of DNA that codes for a trait (protein). Genome – an organism’s complete genetic information. Transgenic.

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic.

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA Gel Electrophoresis Transgenic Organisms.

Genetic Engineering Aulanni’am Biochemistry Laboratory Chemistry Department Brawijaya University

Biotechnology Review.

Genetic Technology Aims: Must be able to outline the main forms of genetic technology. Should be able to discuss the advantages and disadvantages of genetic.

Warm Up THINK – PAIR – SHARE What genetic technologies do you know of that are in existence? How do you feel about their use?

Should we use Genetic Engineering in Farming? By Javier Grego & Nico van den Brink.

Chapter 15 – Genetic Engineering

KEY CONCEPT DNA sequences of organisms can be changed.

Warm Up Create a Vocabulary 4 Square As we identify the terms in our lesson: 1.Define the term 2. Give an example 3. Draw a picture to help you remember.

Genetic Engineering.

Genetic Engineering Regular Biology. Selective Breeding  This is the process of allowing those organisms with specific characteristics to reproduce 

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic.

Copyright Pearson Prentice Hall DNA Technology. Copyright Pearson Prentice Hall Selective Breeding Selective breeding allows only those organisms with.

COBRA: Coordinating Organic Plant Breeding Activities for Diversity March 2013 – February partners, 18 Countries  31 Full partners  10 Associate.

Plant Breeing and Genetic Engineering Plant Science.

What are the problems? Lower yield potential of varieties

An Ethical Debate.  Humans have been breeding farm animals for thousands of years  Selective breeding is done to get the traits a person wants.

Şebnem KARAKİRAZ Dept. Of Food Engineering ADVANTAGES AND DISADVANTAGES OF GENETICALLY MODIFIED ORGANISMS FDE 101.

Genetic Engineering Why and how do we manipulate genetics?

Genetic Engineering Chapter 15. Selective Breeding Allowing only animals with wanted characteristics to breed.

Recombinant DNA technology Genetic Engineering  Genetic engineering is a fast more reliable method to increase the frequency of a gene in a population.

March Against Monsanto. Genes & DNA – life’s code.

A Brave New World.

Primary steps in plant breeding

Recombinant DNA and Cloning The Impact of Biotechnology Honors Genetics Ms. Susan Chabot Lemon Bay High School.

Genetic Engineering. Selective Breeding Humans use selective breeding to pass desired traits on to the next generation of organisms Hybridization – The.

Chapter 15: Genetic Engineering

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic.

New technologies Professor Christine Raines Professor in Plant Biology University of Essex.

Genetic Technology Chapter 13. Selective Breeding Certain plants or animals are mated together over a period of several generations in order to produce.

Global Issues Press Conference Should farmers be concerned with agricultural biotechnology? By: Peter Campbell.

Genetic Engineering. Entire organisms can be cloned  Clone  a genetically identical copy of a gene or of an organism  Cloning occurs in nature:  Bacteria.

Genetic Engineering The processes. Selective Breeding Selective breeding is also known as artificial selection. Humans use the phenotypic characteristics,

Introduction to cisgenesis dr ir Henk Schouten. Example: apple scab.

Genetically Modified Foods (GM or GMO foods). What is a Genetically Modified (GM) Food? Foods that contain an added gene sequence Foods that contain an.

Cereal (barley) ‘State of Play’ Valuable germplasm not getting to market – Specific regional needs not being met – Public V Private programs Growers do.

Standard 5c. Learning Goals  1. Compare Selective Breeding & Genetic Engineering.  2. Summarize the two main steps in genetic engineering.  3. Explain.

Transformative Innovation in Agriculture Potential for CIFSRF project May 12 th 2016 Maurice Moloney Exec. Director and CEO Haile Resort, Hawassa, Ethiopia.

Genetically Modified Organisms

Breeding bulls.

Cisgenesis, a New Tool for Plant Breeding, Should be Exempted from the Regulation on Genetically Modified Organisms. Dr. Victor Polanco C.

GENETIC ENGINEERING Chapter 13.

A Brave New World.

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic.

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic.

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic.

Genetic Engineering Chapter 15.

Biology Unit 5 Notes: Genetic Engineering

Mechanisms of Evolution

Topic: Genetic Engineering Aim: How do scientists alter(change) the DNA make up of living organisms? Genetic Engineers can alter the DNA code of living.

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic.

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic.

Genetically Modified Organisms

KEY CONCEPT DNA sequences of organisms can be changed.

Genetic Engineering.

KEY CONCEPT DNA sequences of organisms can be changed.

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic.

JOURNALING : DAY 3 Omni-Channel Distribution Strategies

KEY CONCEPT DNA sequences of organisms can be changed.

KEY CONCEPT DNA sequences of organisms can be changed.

Genetic Engineering Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic.

Presentation transcript:

Nexgen Plants Pty Ltd The Virus Trait Company March 2015

Challenges of a ‘Trait’ Start-up The value of traits to end users: Viruses don’t appear every year – insurance Vectors and hosts move based on changes in climate Speed of infection and potential to control varies The value of traits to partners: Variety differentiation Trait stacking Which breeding method (GM, non GM) Organic farming potential The cost to confer resistance How to be more than just a trait licensee: Potential to develop own varieties Potential to become part of the supply chain Potential to develop new breeding approaches microRNA (miRNA)

Commercialisation Focus Target genes for priority crops / viruses Multiple breeding methods to confer resistance Alignment with crop development and distribution channels Multiple ‘shots on goal’ Cost effective transformation Transgenic, Cisgenic, Intragenic, Marker Assisted approaches Multiple resistance (own stacking) Responsive to industry needs Adding value to owners of genetics Adding value to supply chain partners Own varieties

Nexgen Plants Pty Ltd The Virus Trait Company March 2015