zhongyi li, csiro agriculture and food, canberra · 2017-07-31 · zhongyi li, csiro agriculture...
TRANSCRIPT
CSIRO capability relevant to today’s talk
CSIRO Agriculture and Food
• Cereal Quality Traits
• Innovative Food Centre
CSIRO Health and Biosecurity
• Nutritional and Health Substantiation
Some BARLEYmax products in Australia
Spin-out
BARLEYmax oat soughdough
Japan first products launched August 2016USA first products launched May 2017
5 |
control HAW
Marcus Newberry
Ahmed Regina
0
2
4
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10
0 50 100Amylose %
>>10 x resistant starch
Resi
stan
t sta
rch
% o
f who
lem
eal f
lour HAW
control3x TDF in refined flour2x TDF in wholemeal
Excludes RS
Hordein reduced >10,000x56,000ppm to 3-5ppmWHO Gluten-free target ≤ 20 ppm
First the beer …….
Commercial release April 2016
Crispin Howitt Greg Tanner Malcolm Blundell
Today’s presentation: Cereal Grain Traits
What we are doing:
• Resistant starch barley
• Resistant starch rice
• Micronutrient dense rice
• Long shelf life rice
Why resistant starch? – a fermentable fibreHigh amylose (>60%)• Modifies starch granule structure to produce resistant starch
Resistant starch• Resists digestion in the small intestine• Reduces glycemic index and glycemic load • Improves satiety
Fermented to short chain fatty acids in large bowel• Acetate, proprionate, butyrate – preferred energy for colonocytes• Lower bowel pH - increases good bugs and reduces the pathogenic• Enhanced Mg and Ca absorption
Healthier colonocytes• Reduced rates of bowel cancer• Reduced absorption of pathogens
Gly
caem
icLo
ad
0
500
1000
1500
2000
2500
3000
Chronic disorders in Australia
Colorectal cancer 4,400 death pa, cost $2 billion a year
Cardiovascular disease18% of Australians$3.9 billion a year
overweight or obese 64% men, 47% women
Type II diabetes8% of Australians, cost $3 billion a year
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Rye Oats Wheat Barley BarleyMax
% o
f tot
al w
eigh
t
High Resistant starch, fructan and fibre
Resistant StarchSolube FibreInsoluble Fibre
Rye Oats Wheat Barley BARLEYmax
More fibre than any other cereal grain
SSIIa mutants in barley increase resistant starch, β-glucan, fructan and total fibre
Grai
n co
mpo
sitio
n (%
)
01020304050607080
wildtype barleySSIIa mutant
171%
196%
4200%430%
162%
Clinical substantiation
• Reduced blood glucose concentration – lower GI (humans)
• Reduced plasma lipids (pig trial)
• Reduced pH in the large bowel (pig trial)
• Increased SCFA concentration in the large bowel (pig trial)
Tony Bird David Topping
BARLEYmax – path to market and impactThe Healthy Grain
Sensory Analysis
End Product Quality
RheologySmall scale
ProcessingPerformance
Nutritional benefit
Substantiationtrials
CSIRO F&N CSIRO Agriculture CSIRO F&N INDUSTRY
PRODUCT
BARLEYmax
Health concept
CompositionGenotype
Biochemical analysisGenes
Mutants MarkersBreeding
Commercial rights with The Healthy Grainhttp://www.thehealthygrain.com/
CEO: Robert BurburyTechnical Business Manager: Dr Paul Sims
BARLEYmax 1, 2 and 3
Resistant starch rice
Increasing amylose content in rice grain through down-regulating the expression of SBEIIb by RNAi and amiRNA approaches
Vito Butardo
Increase amylose in rice
Amyloplast
Amylose
DBEIBEIIb
BEIIaBEI
SSIIIaSSIIa
SSI
Amylopectin
GBSSI
ADPGPPase
ATP PPi
G1P ADPGADP
G1P
Cytoplasm
Sucrose
ADPGPPase
ATP
PPi
ADPG
SSIVa
Pul PhoD-enzymeX
Increasing amylose content in rice grain through combining different starch synthetic gene alleles
Jixun Luo
RILs following cross between IR64 (indica) and Nipponbare (japonica)Genotypes of RILs of six starch biosynthetic enzyme groups
Geno-
type
Wxi Wxj SSIi SSIj SSIIai SSIIaj SBEIi SBEIj SBEIIai SBEIIaj SBEIIbi SBEIIbj
Wx i j i i j i j
SSI i i j j i j i
SSIIa i i i j i i i
SBEI i i i i j i i
SBEIIa j i j i i j i
SBEIIb i j j i j i j
‘i' and ‘j’ are abbreviations for indica (IR64) and japonica (Nipponbare) genotypes of each enzyme
Producing higher amylose rice grain through combining different starch synthetic gene alleles
Amyl
ose
cont
ent %
a
d
cb b
dd
ccd
c
d
b c
05
10152025303540
Black columns indicate lines containing Wxi allele; Grey columns indicate lines containing Wxj allele.
RILs following cross between A203 and 3-12 Genotypes of RILs of four starch biosynthetic enzyme groups
ParentsA203
SSIIajapSSIIajap /SBEIIbDRSBEIIbDR
(opaque)
3-12SSIIaindSSIIajap /
SBEIIbW TSBEIIbW T
(translucent)
×
F3
SSIIa SBEIIb Wx Seed colourG1: ind - ve jap opaqueG2: jap - ve jap opaqueG3: ind + ve jap translucentG4: jap + ve jap translucent
The impact of the indica SSIIa allele on the starch properties of high amylose starch from rice grains
SSIIa SBEIIbG1: ind - veG2: jap - veG3: ind + veG4: jap + ve
0
20
40
G1 G2 G3 G4
Amylose content (%)
a ab b
0
10
20
G1 G2 G3 G4
Swelling power (folds)
a ba a
Two different mechanisms for increasing amylosecontent in rice grains
0
0.1
0.2
0.3
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0.5
0.6
0.7
0.8
4404004000
A203Nip3-5-23-15-3IR36aeIR36
Peak2Peak1B
00.10.20.30.40.50.60.70.8
4404004000
G-1G-2G-3G-4
APeak2
Peak1
SSIIajap SBEIIb Wxjap
A203: jap -ve japNip: jap +ve jap3-15-3: jap +ve jap3-5-2: ind +ve japIR36ae: ind -ve indIR36: ind +ve ind
SSIIa SBEIIb WxG1: ind - ve japG2: jap - ve japG3: ind + ve japG4: jap + ve jap
Summary for manipulating starch in rice grain
• Both suppression of SBE IIb expression and gene recombination can increase amylose content.
• High amylose trait can be achieved through two different mechanisms.
• The indica SSIIa can improve starch properties for high amylose starch from rice grain through down-regulation of SBEIIb.
New type of rice -thick aleurone mutants
Aleurone important sink for micronutrients
Aleurone layerStarchy endosperm
Dietary fibreProteins, enzymesPhenolics, lignansVitamin EB group vitaminsMinerals and phytic acidLipids, plant sterols
Rice dominant diets:Zn and Fe deficient5th and 6th most important contributors to disease in developing countries (WHO, 2002)
Nutritional analyses of ta2 mutant wholemeal flour compared to normal wholemeal flour
60% increase in Vitamin B6 &
B9
50% increase in lipid
20% increase in Vitamin B3
≥20% increase in Zn, Fe, Mg, K, P, S
80% increase antioxidant capacity
30% increase in fibre
Summary for micronutrient dense rice
• Micronutrient dense rice has been generated through increasing aleurone sink for micronutrients in rice grain.
• Thick aleurone rice grain also contains more dietary fibreand vitamins.
• Patent application is in place.
Oil oxidation
Oleic acid Linoleic acid Linolenic acid
AutoxidationStage 1
AutoxidationStage 2
Oxidation stages
Hydroperoxides
Oxidation process
Productseg. For Linoleic acid9-Hydroperoxide13-Hydroperoxide
AldehydesCarboxylicAlcoholhydrocarbons
eg. For Linoleic acidPentanalHexanal2,4-decadiental
Good Oil Bad Oil
eg. soybean and corn oil contain 23.5% Hexanalin volatile compounds
Oxidized flavor
PCR screening of OsFAD2-1 RNAi T0 plants (Nipponbare)
Bx17 promoter
OsFAD2-1 Rint9 OsFAD2-1
NOS terminator
ZLBx173’
pFAD2-Rhpt gene
1 2 3 4 6 7 8 9 10 12 13 14 21 22
A
B
Linear relationship between linoleic acid and oleic acid content for OsFAD2-1 RNAi and negative segregant T1 grains
FAD2 RNA y = -0.86x + 68
R 2 = 0.98
0 5
10 15 20 25 30 35 40 45
0 20 40 60 80
Oleic acid (%)
OsFAD2-1 RNAi
Negative segregant
Lino
leic
aci
d (%
)
Increased oleic acid and reduced linoleic acid contents of T4 grains for OsFAD2-1 RNAi lines
0
10
20
30
40
50
60
Palmiticacid
oleic acid Linoleicacid
OsFAD2-1 RNAi
Negativesegregant
Cont
ent (
%)
Hong Wang Ming Huang
Summary
Producing BARLEYmax, HA wheat and Kebari grains containing novel traits that are commercially available.
Developed rice grain with increased RS and low GI.
Developed micronutrient dense rice.
Producing long shelf life rice grain.
Looking for the opportunities to work with other partners for improving rice grain quality.
AcknowledgementRussell HeywoodMark CmielOscar LarroqueBehjat Kosar-HashemiEmmett LeyneChris Konik-Ross
Sadiq RahmanQing LiuPeter ChandlerSteve JoblingMatthew Morell
ACVL Ltd (BARLEYmax JV, BARLEYmaxEnterprises, The Healthy Grain)AustgrainsPopina Food Services (Goodness Superfoods, Freedom Foods Group)
Limagrain (ARISTA)
Rob DefeyterLindsay AdlerPaul Sims
CSIRO Plant IndustryCAISO Food Future FlagshipCSIRO Agriculture Flagship
CSIRO Agriculture FlagshipPresenter Name: Zhongyi LiPresenter Title: Manipulating
starch in cereal grainsCereal quality traits Groupt +61 2 6246 4951 e [email protected] www.csiro.au
CSIRO AGRICULTURE FLAGSHIP
Thank you