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Manuscript

Figure ___. Membrane transport characteristics of Xenopus laevis oocytes transformed with clone#3992. mRNA encoding orf3992 was transcribed in vitro from plasmid pEP(clone#3992) and transformed into Xenopus laevis oocytes. (A) Sugar transport into oocytes in the presence and absence of 10 µM carbonyl cyanide m-chlorophenyl hydrazone (CCCP). Extracellular medium supplemented with 1 mM sugar was left with oocytes for 1 hour and then intracellular concentration of sugar was measured. (B) Measurement of beemolulose transport kinetics into oocytes in the presence of different sugars.

Figure ____. Modifications to orf3992 within A. candicus. (A) Schematic showing CRISPR/Cas9 with guide RNA (gRNA) that targets orf3992 co-transformed into A. candicus. (B) Effect of CRISPR/Cas9 disruption of orf3992 gene on A. candicus growth characteristics. Sugars were added to minimal growth medium and A. candicus was grown for 12 hours in minimal medium plus sugar. (C) Schematic showing transformation of expression plasmid encoding orf3992 into A. candicus. (D) Effect of orf3992 overexpression on A. candicus growth in minimal medium plus sugars.

Figure ____. Screening Austral candicus cDNA library. (A) cDNA library preparation diagram. mRNA was extracted from A. candicus, converted to cDNA via reverse-transcription, followed by cloning into an expression plasmid with promoter constitutively active within S. cerevisiae. Following transformation of plasmid library into S. cerevisiae, 109 clones were plated onto minimal medium with all amino acids added lacking any sugar but beemolulose. Resulting colonies were picked and grown in 96-well liquid format with the same medium as used for plating colonies. Clone #3992 was one of 20 colonies that showed growth in the 96-well plate, had the most robust growth, and was chosen for further study. (B) Growth of yeast strains on different sugars. Growth was in liquid minimal medium supplemented with sugar(s) indicated. In the right panel, equimolar combinations of beemolulose plus indicated sugar were supplemented into minimal growth medium.

Figure ____. Identification and cellular localisation of ORF3992 protein. (A) Sequencing of clone #3992 reveals an open reading frame (ORF3992) of 700 amino acids long with hydropathy plotting potentially showing transmembrane domains. (B) Adding FLAG-tag to C-terminus of ORF3992 followed by transformation into yeast strain W303. (C) SDS-PAGE analysis of cytoplasm, membrane, and nucleus fractions from (-) yeast cells alone and (+) yeast cells carrying pEP(clone #3992). (D) Western blot of cytoplasm, membrane, and nucleus fractions from (-) yeast cells alone and (+) yeast cells carrying pEP(clone #3992). Probed with a rabbit anti-FLAG tag primary antibody, followed by anti-rabbit secondary antibody, and visualised with enhanced chemiluminescence (ECL) reagent.

B. Sugar

0

1750

3500 Tr

an sp

or t R

at e

(p m

ol /m

in /o

oc yt

e)

A ra

bi no

se

X yl

os e

B ee

m ol

ul os

e

La ct

os e

F ru

ct os

e

R ha

m no

se

M an

no se

S uc

ro se

G lu

co se

CCCP (10 µM)

Control A.

Substrate 1 Substrate 2 Km (mM) Vmax (pmols/min/oocyte)

Beemolulose – 20 ± 1 3499 ± 380 Beemolulose Glucose 22 ± 2 3298 ± 350 Beemolulose Mannose 21 ± 1 3507 ± 373 Beemolulose Rhamnose 102 ± 5 3445 ± 401

Beemolulose Transport Characteristics

B.

Sugar

0

1750

3500

T

r

a

n

s

p

o

r

t

R

a

t

e

(

p

m

o

l

/

m

i

n

/

o

o

c

y

t

e

)

A

r

a

b

i

n

o

s

e

X

y

l

o

s

e

B

e

e

m

o

l

u

l

o

s

e

L

a

c

t

o

s

e

F

r

u

c

t

o

s

e

R

h

a

m

n

o

s

e

M

a

n

n

o

s

e

S

u

c

r

o

s

e

G

l

u

c

o

s

e

CCCP (10 µM)

Control

A.

Substrate 1Substrate 2Km (mM)Vmax (pmols/min/oocyte)

Beemolulose- 20 ± 1 3499 ± 380

BeemoluloseGlucose22 ± 2 3298 ± 350

BeemoluloseMannose 21 ± 13507 ± 373

BeemoluloseRhamnose102 ± 5 3445 ± 401

Beemolulose Transport Characteristics

A.

La ct

os e

R ha

m no

se

B ee

m ol

ul os

e

X yl

os e

M an

no se

F ru

ct os

e

S uc

ro se

G lu

co se

N on

e

Sugar added to minimal medium

0

?orf3992 Wild-type

100

150

G ro

w th

(% )

C.

B.

pEP(clone #3992)

La ct

os e

R ha

m no

se

B ee

m ol

ul os

e

X yl

os e

M an

no se

F ru

ct os

e

S uc

ro se

G lu

co se

N on

e

Sugar added to minimal medium

0

pEP(clone#3992) Wild-type

100

200

G ro

w th

(% )

Cas9+ gRNA

orf3992

D.

A.

L

a

c

t

o

s

e

R

h

a

m

n

o

s

e

B

e

e

m

o

l

u

l

o

s

e

X

y

l

o

s

e

M

a

n

n

o

s

e

F

r

u

c

t

o

s

e

S

u

c

r

o

s

e

G

l

u

c

o

s

e

N

o

n

e

Sugar added to minimal medium

0

?orf3992

Wild-type

100

150

G

r

o

w

t

h

(

%

)

C.

B.

pEP(clone #3992)

L

a

c

t

o

s

e

R

h

a

m

n

o

s

e

B

e

e

m

o

l

u

l

o

s

e

X

y

l

o

s

e

M

a

n

n

o

s

e

F

r

u

c

t

o

s

e

S

u

c

r

o

s

e

G

l

u

c

o

s

e

N

o

n

e

Sugar added to minimal medium

0

pEP(clone#3992)

Wild-type

100

200

G

r

o

w

t

h

(

%

)

Cas9+

gRNA

orf3992

D.

A ra

bi no

se

X yl

os e

La ct

os e

R ha

m no

se

A ra

bi no

se

X yl

os e

+ Beemolulose

B ee

m ol

ul os

e

La ct

os e

F ru

ct os

e

R ha

m no

se

M an

no se

M an

no se

S uc

ro se

S uc

ro se

G lu

co se

G lu

co se

109 independent clones

Minimal medium + beemolulose

B.

A.

Sugar(s) added to minimal medium

0

Yeast + pEP(clone #3992)

Yeast

50

100

G ro

w th

(% )

mRNA

Saccharomyces cerevisae

Austral candicus

Expression Plasmid (pEP)

cDNA

Yeast + pEP(clone #3992)

Yeast

A

r

a

b

i

n

o

s

e

X

y

l

o

s

e

L

a

c

t

o

s

e

R

h

a

m

n

o

s

e

A

r

a

b

i

n

o

s

e

X

y

l

o

s

e

+ Beemolulose

B

e

e

m

o

l

u

l

o

s

e

L

a

c

t

o

s

e

F

r

u

c

t

o

s

e

R

h

a

m

n

o

s

e

M

a

n

n

o

s

e

M

a

n

n

o

s

e

S

u

c

r

o

s

e

S

u

c

r

o

s

e

G

l

u

c

o

s

e

G

l

u

c

o

s

e

10

9

independent clones

Minimal medium

+ beemolulose

B.

A.

Sugar(s) added to minimal medium

0

Yeast + pEP(clone #3992)

Yeast

50

100

G

r

o

w

t

h

(

%

)

mRNA

Saccharomyces

cerevisae

Austral candicus

Expression

Plasmid

(pEP)

cDNA

Yeast + pEP(clone #3992)

Yeast

C.

220

KDa

100 120

80

50

60

40

20

30

MW M

ar ke

r

Cytoplasm Membrane Nucleus – + – + – + D.

220

KDa

100 120

80

50

60

40

20

30

MW M

ar ke

r

Cytoplasm Membrane Nucleus – + – + – +

Western Blot 1° antibody: anti-FLAG

SDS-PAGE

pEP(clone #3992)

B.

pEP(clone #3992)

FLAG-tag

W303(pEP(clone #3992))

A.

ORF3992 Position of Protein

H yd

ro pa

th y

+3

0

+2 +1

-1 -2 -3

1 508254

N- -C

C.

220

KDa

100

120

80

50

60

40

20

30

M

W

M

a

r

k

e

r

CytoplasmMembraneNucleus

+

+

+

D.

220

KDa

100

120

80

50

60

40

20

30

M

W

M

a

r

k

e

r

CytoplasmMembraneNucleus

+

+

+

Western Blot

1° antibody: anti-FLAG

SDS-PAGE

pEP(clone #3992)

B.

pEP(clone #3992)

FLAG-tag

W303(pEP(clone #3992))

A.

ORF3992

Position of Protein

H

y

d

r

o

p

a

t

h

y

+3

0

+2

+1

-1

-2

-3

1

508

254

N- -C

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Home>Biology homework help>Manuscript

Figure ___. Membrane transport characteristics of Xenopus laevis oocytes transformed with clone#3992. mRNA encoding orf3992 was transcribed in vitro from plasmid pEP(clone#3992) and transformed into Xenopus laevis oocytes. (A) Sugar transport into oocytes in the presence and absence of 10 µM carbonyl cyanide m-chlorophenyl hydrazone (CCCP). Extracellular medium supplemented with 1 mM sugar was left with oocytes for 1 hour and then intracellular concentration of sugar was measured. (B) Measurement of beemolulose transport kinetics into oocytes in the presence of different sugars.

Figure ____. Modifications to orf3992 within A. candicus. (A) Schematic showing CRISPR/Cas9 with guide RNA (gRNA) that targets orf3992 co-transformed into A. candicus. (B) Effect of CRISPR/Cas9 disruption of orf3992 gene on A. candicus growth characteristics. Sugars were added to minimal growth medium and A. candicus was grown for 12 hours in minimal medium plus sugar. (C) Schematic showing transformation of expression plasmid encoding orf3992 into A. candicus. (D) Effect of orf3992 overexpression on A. candicus growth in minimal medium plus sugars.

Figure ____. Screening Austral candicus cDNA library. (A) cDNA library preparation diagram. mRNA was extracted from A. candicus, converted to cDNA via reverse-transcription, followed by cloning into an expression plasmid with promoter constitutively active within S. cerevisiae. Following transformation of plasmid library into S. cerevisiae, 109 clones were plated onto minimal medium with all amino acids added lacking any sugar but beemolulose. Resulting colonies were picked and grown in 96-well liquid format with the same medium as used for plating colonies. Clone #3992 was one of 20 colonies that showed growth in the 96-well plate, had the most robust growth, and was chosen for further study. (B) Growth of yeast strains on different sugars. Growth was in liquid minimal medium supplemented with sugar(s) indicated. In the right panel, equimolar combinations of beemolulose plus indicated sugar were supplemented into minimal growth medium.

Figure ____. Identification and cellular localisation of ORF3992 protein. (A) Sequencing of clone #3992 reveals an open reading frame (ORF3992) of 700 amino acids long with hydropathy plotting potentially showing transmembrane domains. (B) Adding FLAG-tag to C-terminus of ORF3992 followed by transformation into yeast strain W303. (C) SDS-PAGE analysis of cytoplasm, membrane, and nucleus fractions from (-) yeast cells alone and (+) yeast cells carrying pEP(clone #3992). (D) Western blot of cytoplasm, membrane, and nucleus fractions from (-) yeast cells alone and (+) yeast cells carrying pEP(clone #3992). Probed with a rabbit anti-FLAG tag primary antibody, followed by anti-rabbit secondary antibody, and visualised with enhanced chemiluminescence (ECL) reagent.

B. Sugar

0

1750

3500 Tr

an sp

or t R

at e

(p m

ol /m

in /o

oc yt

e)

A ra

bi no

se

X yl

os e

B ee

m ol

ul os

e

La ct

os e

F ru

ct os

e

R ha

m no

se

M an

no se

S uc

ro se

G lu

co se

CCCP (10 µM)

Control A.

Substrate 1 Substrate 2 Km (mM) Vmax (pmols/min/oocyte)

Beemolulose – 20 ± 1 3499 ± 380 Beemolulose Glucose 22 ± 2 3298 ± 350 Beemolulose Mannose 21 ± 1 3507 ± 373 Beemolulose Rhamnose 102 ± 5 3445 ± 401

Beemolulose Transport Characteristics

B.

Sugar

0

1750

3500

T

r

a

n

s

p

o

r

t

R

a

t

e

(

p

m

o

l

/

m

i

n

/

o

o

c

y

t

e

)

A

r

a

b

i

n

o

s

e

X

y

l

o

s

e

B

e

e

m

o

l

u

l

o

s

e

L

a

c

t

o

s

e

F

r

u

c

t

o

s

e

R

h

a

m

n

o

s

e

M

a

n

n

o

s

e

S

u

c

r

o

s

e

G

l

u

c

o

s

e

CCCP (10 µM)

Control

A.

Substrate 1Substrate 2Km (mM)Vmax (pmols/min/oocyte)

Beemolulose- 20 ± 1 3499 ± 380

BeemoluloseGlucose22 ± 2 3298 ± 350

BeemoluloseMannose 21 ± 13507 ± 373

BeemoluloseRhamnose102 ± 5 3445 ± 401

Beemolulose Transport Characteristics

A.

La ct

os e

R ha

m no

se

B ee

m ol

ul os

e

X yl

os e

M an

no se

F ru

ct os

e

S uc

ro se

G lu

co se

N on

e

Sugar added to minimal medium

0

?orf3992 Wild-type

100

150

G ro

w th

(% )

C.

B.

pEP(clone #3992)

La ct

os e

R ha

m no

se

B ee

m ol

ul os

e

X yl

os e

M an

no se

F ru

ct os

e

S uc

ro se

G lu

co se

N on

e

Sugar added to minimal medium

0

pEP(clone#3992) Wild-type

100

200

G ro

w th

(% )

Cas9+ gRNA

orf3992

D.

A.

L

a

c

t

o

s

e

R

h

a

m

n

o

s

e

B

e

e

m

o

l

u

l

o

s

e

X

y

l

o

s

e

M

a

n

n

o

s

e

F

r

u

c

t

o

s

e

S

u

c

r

o

s

e

G

l

u

c

o

s

e

N

o

n

e

Sugar added to minimal medium

0

?orf3992

Wild-type

100

150

G

r

o

w

t

h

(

%

)

C.

B.

pEP(clone #3992)

L

a

c

t

o

s

e

R

h

a

m

n

o

s

e

B

e

e

m

o

l

u

l

o

s

e

X

y

l

o

s

e

M

a

n

n

o

s

e

F

r

u

c

t

o

s

e

S

u

c

r

o

s

e

G

l

u

c

o

s

e

N

o

n

e

Sugar added to minimal medium

0

pEP(clone#3992)

Wild-type

100

200

G

r

o

w

t

h

(

%

)

Cas9+

gRNA

orf3992

D.

A ra

bi no

se

X yl

os e

La ct

os e

R ha

m no

se

A ra

bi no

se

X yl

os e

+ Beemolulose

B ee

m ol

ul os

e

La ct

os e

F ru

ct os

e

R ha

m no

se

M an

no se

M an

no se

S uc

ro se

S uc

ro se

G lu

co se

G lu

co se

109 independent clones

Minimal medium + beemolulose

B.

A.

Sugar(s) added to minimal medium

0

Yeast + pEP(clone #3992)

Yeast

50

100

G ro

w th

(% )

mRNA

Saccharomyces cerevisae

Austral candicus

Expression Plasmid (pEP)

cDNA

Yeast + pEP(clone #3992)

Yeast

A

r

a

b

i

n

o

s

e

X

y

l

o

s

e

L

a

c

t

o

s

e

R

h

a

m

n

o

s

e

A

r

a

b

i

n

o

s

e

X

y

l

o

s

e

+ Beemolulose

B

e

e

m

o

l

u

l

o

s

e

L

a

c

t

o

s

e

F

r

u

c

t

o

s

e

R

h

a

m

n

o

s

e

M

a

n

n

o

s

e

M

a

n

n

o

s

e

S

u

c

r

o

s

e

S

u

c

r

o

s

e

G

l

u

c

o

s

e

G

l

u

c

o

s

e

10

9

independent clones

Minimal medium

+ beemolulose

B.

A.

Sugar(s) added to minimal medium

0

Yeast + pEP(clone #3992)

Yeast

50

100

G

r

o

w

t

h

(

%

)

mRNA

Saccharomyces

cerevisae

Austral candicus

Expression

Plasmid

(pEP)

cDNA

Yeast + pEP(clone #3992)

Yeast

C.

220

KDa

100 120

80

50

60

40

20

30

MW M

ar ke

r

Cytoplasm Membrane Nucleus – + – + – + D.

220

KDa

100 120

80

50

60

40

20

30

MW M

ar ke

r

Cytoplasm Membrane Nucleus – + – + – +

Western Blot 1° antibody: anti-FLAG

SDS-PAGE

pEP(clone #3992)

B.

pEP(clone #3992)

FLAG-tag

W303(pEP(clone #3992))

A.

ORF3992 Position of Protein

H yd

ro pa

th y

+3

0

+2 +1

-1 -2 -3

1 508254

N- -C

C.

220

KDa

100

120

80

50

60

40

20

30

M

W

M

a

r

k

e

r

CytoplasmMembraneNucleus

+

+

+

D.

220

KDa

100

120

80

50

60

40

20

30

M

W

M

a

r

k

e

r

CytoplasmMembraneNucleus

+

+

+

Western Blot

1° antibody: anti-FLAG

SDS-PAGE

pEP(clone #3992)

B.

pEP(clone #3992)

FLAG-tag

W303(pEP(clone #3992))

A.

ORF3992

Position of Protein

H

y

d

r

o

p

a

t

h

y

+3

0

+2

+1

-1

-2

-3

1

508

254

N- -C

Applied Sciences
Architecture and Design
Biology
Business & Finance
Chemistry
Computer Science
Geography
Geology
Education
Engineering
English
Environmental science
Spanish
Government
History
Human Resource Management
Information Systems
Law
Literature
Mathematics
Nursing
Physics
Political Science
Psychology
Reading
Science
Social Science
Liberty University
New Hampshire University
Strayer University
University Of Phoenix
Walden University
Home
Homework Answers
Blog
Archive
Tags
Reviews
Contact
twitterfacebook
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