enhancing phytoremediation and plant growth in poplar · pdf fileenhancing phytoremediation...

Enhancing Phytoremediation and Plant Growth in Poplar and Willow

Sharon DotyAssistant Professor

College of Forest Resources

2

Why do we need to enhance phytoremediation?

Removal of Pollutants by CYP2E1 Transgenic Poplar

Funding: Superfund Basic Research Program of NIEHS

P.I. Stuart Strand, UWCo-P.I. Sharon Doty, UW

4

Trichloroethylene (TCE)

Used for decades as metal degreaser, dry cleaning agent, solvent, and anestheticFollowing use, it was dumped outsideOne of the most widespread contaminants in the environment (60% of SuperFund sites)Toxic to the liver, kidney, CNS, and likely carcinogenicPersistent in the environment

Mammalian Cytochrome P450 2E1 Catalyzes TCE Metabolism

Chloral

Trichloroacetic Acid

Trichloroethanol

Trichloroethylene

2E1

Transformation of Poplar (P. tremula x alba N717-1B4) using A. tumefaciens

7

Transgenic plants were assayed for increased metabolism of pollutants

CYP2E1 Transgenic Poplar Had Increased Metabolism of TCE

0

0.5

1

1.5

2

2.5

3

3.5

4

μg T

CEO

H/g

m ti

ssue

Vector Control Aspen r2E1 Transgenic Aspen

132X Average Control121X Average Control

Doty, unpublishedS. Doty, et al. (2007) Proc. Natl. Acad. Sci. 104(43):16816-16821.

CYP2E1 transgenic poplar removed TCE at a faster rate

Transgenic Plant % Removal Rate *

No plant control 0.8 +/- 1.1 0.1 +/- 0.1

Vector Control 2.6 +/- 0.3 0.4 +/- 2.8

CYP2E1 #78 86.9 +/- 11.4 20.3 +/- 4.6

S. Doty, et al. (2007) Proc. Natl. Acad. Sci. 104(43):16816-16821.

Rate: ug TCE/day*gm fresh weight

Cytochrome P450 2E1 Has Multiple Substrates

ChloroformCarbon Tetrachloride

Vinyl ChlorideBenzene

Increased Removal of Chloroform from Solution by CYP2E1 Transgenic Poplar

Doty, unpublished

0

100000

200000

300000

400000

500000

0 1 2 3 4 5 6 7

Chl

orof

orm

(GC

pea

k ar

ea)

Time (Days)

Unplanted

Vector Ctrl

r2E1#78

r2E1#20

Increased Removal of Carbon Tetrachloride from Solution By CYP2E1 Transgenic Poplar

0

0.5

1

1.5

2

0 1 2 3 4 5 6 7Car

bon

Tetr

achl

orid

e (u

g/m

l)

Time (Days)

Unplanted

Vector Ctrl

r2E1#78

r2E1#20

CYP2E1 Transgenic Poplar Removed More Pollutants from Air

TCE

Benzene

Vinyl Chloride

CYP2E1 Poplar Plants Removed TCE from Air At A Faster Rate

0

5,000

10,000

15,000

20,000

25,000

0 1 2 3 4 5 6 7

Time (days)

TC

E C

once

ntra

tion

(ug/

m3)

UnplantedVector Controlr2E1#78

Identification of Plant Genes Involved in TCE Metabolism

Proposed Fate of TCE in Plants

Shang, T. Q., et al. (2001) Phytochemistry 58:1055-1065.

Approaches to identify plant genes involved in TCE metabolism

Poplar microarrays (Dr. Fred Farin, UW)Arabidopsis microarrays (Dr. Mary Schuler, UI)

Test candidate genes in yeast

TCE dosed Un-dosed

Phases of detoxification in plants

(Benoit Van Aken, 2008 Trends in Biotechnology 26(5):225-227)

Function Enzyme KH200+TCE #78+TCE

Upregulated 68 472

Phase I TransformationCytochrome P450,Reductases,Dehalogenases

2 55

Phase II ConjugationGlycosyltransferases (UGT),Glutathione-S trasnferases (GST), Acyltransferases 1

811

Phase III

Compartment- ation

ATP binding cassette(ABC transporter)

1 7

PeroxidaseOxidaseOxidoreductase

3 467

Unknown … …

Log FC >2Kang, unpublished

Microarray Results: Vector Control vs CYP2E1Poplar Genes Induced by TCE Exposure

20

Current Research

Field testing of transgenic poplar (NIEHS funded)

Analysis of plant genes involved in TCE metabolism (NIEHS funded)

Developing transformation protocols for willow (CPBR funded)

21

Summary of Transgenic Phytoremediation

Expression of mammalian P450 2E1 gene in transgenic poplar led to a strong increase in TCE metabolism and removal of TCE (53X), and a strong increase in removal of chloroform (9X), carbon tetrachloride, vinyl chloride (3X) and benzene (10X).

Analysis of upregulated genes in response to TCE in poplar revealed many genes known to be involved in detoxification of pollutants. Analysis of these genes may lead to improved phytoremediation.

Enhancing Plant Growth using Nitrogen-Fixing Endophytes of

Poplar and Willow

23

Contaminated areas often have poor soil

Abandoned, polluted commercial propertiesPhytoremediation depends on good plant growth

24

Nitrogen fixation in root nodules

Chemical fertilizers are petroleum-based; getting costlierSome microbes convert N2 gas to ammonia

Nitrogen fixation occurs within root nodules of only some plant species

25

EndophytesMicroorganisms that live within plants without causing diseaseIncreased nutrient acquisition, pathogen resistance, stress tolerance

26

Nitrogen-fixing endophytes of poplar and willow

Doty, et al. (2005) Symbiosis 39: 27-35

Doty, et al. (2009) Symbiosis 47:23-33

In wild settings, poplar and willow grow under low-nitrogen conditions

Isolated endophytes; identified using 16S rRNA gene sequencing

Some poplar and willow endophytes grow well in medium without ammonium or nitrate

0

0.05

0.1

0.15

0.2

0.25

0.3

0 5 11 23 36 50 71 76.5 96 103

Time (hours)

OD

600

AzotobacterC58WPBWW5WW9WW11

29

Plant Growth Promotion by Endophytes of Poplar

NFM Rope

Sterile sand

Kentucky bluegrass

Grass growth promotion assay

Room temp, 16/8 hr light/darkness

After 50 days, cleaned and dried

Weighed for shoot and root respectively

Determined for N content using a CHN analyzer

Gang Xin, Genyun Zhang, and Sharon Doty (manuscript in preparation)

0

1

2

3

4

5

6

N content total N N content total N total N

N c

onte

nt, %

or t

otal

N, m

g w/ WPBControl

0.00

0.05

0.10

0.15

0.20

0.25

0.30

0.35

1 2 3Ave

rage

dry

wei

ght p

er c

ham

ber,

g

w/ WPBControl

Shoot Root Whole plant

Shoot RootWhole plant

42% biomass increase with WPB inoculation

37% total N increase with WPB inoculation

Gang Xin

WPB enhances the growth of rice under nitrogen limitation

Expt. Performed in Dr. Rodriguez’s lab

Summary of Endophyte Characterization

Initially focused on Burkholderia strain, WPB.WPB shares high nifHDK gene similarity with known B. vietnamiensis strains.High nitrogenase activity was determined using both the 15N2 incorporation assay and the Acetylene Reduction Assay.WPB can significantly promote growth of Kentucky bluegrass, crabgrass, and rice. Similar experiments with poplar and corn are underway.

34

Current Research

Propagation of internally-sterile poplar

Growth effectsMicroarrays

Analysis of willow endophytes

Acknowledgements for Endophyte Research

Gang Xin: WPB studies

Helped with acetylene reduction assays or strain identification: Z. Khan, A. Vajzovic, G. Singleton, and J. W. Kang

Gengyun (George) Zhang: Turfgrass studies

Rice studies:

Dr. Regina Redman and Dr. Rusty Rodriguez

Acknowledgements for Phytoremediation

ResearchProfessor Stuart Strand (Principal Investigator)

FUNDING: DOE and NIEHS

Allison Moore

Azra Vajzovic

Zareen Khan

Andy James

Glenda Singleton

Jun Won Kang

Keum Young Lee

George Zhang