a166_f3ad

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

↘

→

If enzyme E₆ is completely inactivated, what happens to the production of V?

metabolite V production is unchanged because the branches are independent Incorrect metabolite V increases because S is redirected into the upper branch Correct metabolite V stops because one branch is blocked Incorrect metabolite V decreases because S accumulates upstream Incorrect MC

83ad_3ffd

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of S?

metabolite S decreases because O accumulates upstream Incorrect metabolite S stops because one branch is blocked Incorrect metabolite S increases because O is redirected into the upper branch Correct metabolite S production is unchanged because the branches are independent Incorrect MC

06d4_3022

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of V?

metabolite V increases because P is redirected into the lower branch Correct metabolite V stops because one branch is blocked Incorrect metabolite V decreases because P accumulates upstream Incorrect metabolite V production is unchanged because the branches are independent Incorrect MC

2c17_98d0

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of J?

metabolite J increases because C is redirected into the lower branch Correct metabolite J decreases because C accumulates upstream Incorrect metabolite J production is unchanged because the branches are independent Incorrect metabolite J stops because one branch is blocked Incorrect MC

3f41_a629

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of K?

metabolite K production is unchanged because the branches are independent Incorrect metabolite K stops because one branch is blocked Incorrect metabolite K increases because G is redirected into the upper branch Correct metabolite K decreases because G accumulates upstream Incorrect MC

b46f_ecd9

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of J?

metabolite J stops because one branch is blocked Incorrect metabolite J production is unchanged because the branches are independent Incorrect metabolite J decreases because D accumulates upstream Incorrect metabolite J increases because D is redirected into the lower branch Correct MC

7632_b280

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of S?

metabolite S stops because one branch is blocked Incorrect metabolite S decreases because P accumulates upstream Incorrect metabolite S production is unchanged because the branches are independent Incorrect metabolite S increases because P is redirected into the upper branch Correct MC

c810_a78c

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

E₁₁

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of P?

metabolite P increases because H is redirected into the lower branch Correct metabolite P production is unchanged because the branches are independent Incorrect metabolite P decreases because H accumulates upstream Incorrect metabolite P stops because one branch is blocked Incorrect MC

dc72_7253

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of Q?

metabolite Q decreases because K accumulates upstream Incorrect metabolite Q production is unchanged because the branches are independent Incorrect metabolite Q increases because K is redirected into the lower branch Correct metabolite Q stops because one branch is blocked Incorrect MC

aa9d_44cb

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

E₉

↘

→

If enzyme E₆ is completely inactivated, what happens to the production of F?

metabolite F stops because one branch is blocked Incorrect metabolite F decreases because C accumulates upstream Incorrect metabolite F increases because C is redirected into the upper branch Correct metabolite F production is unchanged because the branches are independent Incorrect MC

596c_2da0

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

E₁₁

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of L?

metabolite L decreases because D accumulates upstream Incorrect metabolite L production is unchanged because the branches are independent Incorrect metabolite L increases because D is redirected into the lower branch Correct metabolite L stops because one branch is blocked Incorrect MC

e4c9_3b4b

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of S?

c86d_a8b9

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of W?

metabolite W increases because P is redirected into the lower branch Correct metabolite W stops because one branch is blocked Incorrect metabolite W production is unchanged because the branches are independent Incorrect metabolite W decreases because P accumulates upstream Incorrect MC

a0a6_f0d7

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

E₉

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of N?

metabolite N production is unchanged because the branches are independent Incorrect metabolite N decreases because G accumulates upstream Incorrect metabolite N increases because G is redirected into the lower branch Correct metabolite N stops because one branch is blocked Incorrect MC

0840_53cd

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

↘

→

If enzyme E₆ is completely inactivated, what happens to the production of J?

metabolite J increases because G is redirected into the upper branch Correct metabolite J production is unchanged because the branches are independent Incorrect metabolite J decreases because G accumulates upstream Incorrect metabolite J stops because one branch is blocked Incorrect MC

452a_79cd

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

E₁₁

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of X?

metabolite X production is unchanged because the branches are independent Incorrect metabolite X increases because P is redirected into the lower branch Correct metabolite X stops because one branch is blocked Incorrect metabolite X decreases because P accumulates upstream Incorrect MC

6f40_0863

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of S?

metabolite S stops because one branch is blocked Incorrect metabolite S decreases because P accumulates upstream Incorrect metabolite S increases because P is redirected into the upper branch Correct metabolite S production is unchanged because the branches are independent Incorrect MC

62ed_0071

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of S?

metabolite S decreases because L accumulates upstream Incorrect metabolite S stops because one branch is blocked Incorrect metabolite S increases because L is redirected into the lower branch Correct metabolite S production is unchanged because the branches are independent Incorrect MC

4042_717e

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of K?

metabolite K stops because one branch is blocked Incorrect metabolite K production is unchanged because the branches are independent Incorrect metabolite K increases because D is redirected into the lower branch Correct metabolite K decreases because D accumulates upstream Incorrect MC

03aa_d28c

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of O?

metabolite O stops because one branch is blocked Incorrect metabolite O production is unchanged because the branches are independent Incorrect metabolite O increases because L is redirected into the upper branch Correct metabolite O decreases because L accumulates upstream Incorrect MC

5ae0_7568

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of W?

metabolite W production is unchanged because the branches are independent Incorrect metabolite W decreases because P accumulates upstream Incorrect metabolite W increases because P is redirected into the lower branch Correct metabolite W stops because one branch is blocked Incorrect MC

bacf_2bb0

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of K?

metabolite K decreases because H accumulates upstream Incorrect metabolite K increases because H is redirected into the upper branch Correct metabolite K production is unchanged because the branches are independent Incorrect metabolite K stops because one branch is blocked Incorrect MC

f34e_c6ba

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

↘

→

If enzyme E₆ is completely inactivated, what happens to the production of F?

metabolite F production is unchanged because the branches are independent Incorrect metabolite F increases because C is redirected into the upper branch Correct metabolite F decreases because C accumulates upstream Incorrect metabolite F stops because one branch is blocked Incorrect MC

10bb_2e2b

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of I?

metabolite I production is unchanged because the branches are independent Incorrect metabolite I stops because one branch is blocked Incorrect metabolite I decreases because C accumulates upstream Incorrect metabolite I increases because C is redirected into the lower branch Correct MC

6df0_e6cf

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

E₉

↘

→

If enzyme E₆ is completely inactivated, what happens to the production of R?

metabolite R increases because O is redirected into the upper branch Correct metabolite R decreases because O accumulates upstream Incorrect metabolite R stops because one branch is blocked Incorrect metabolite R production is unchanged because the branches are independent Incorrect MC

905a_c07d

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of Y?

metabolite Y production is unchanged because the branches are independent Incorrect metabolite Y decreases because S accumulates upstream Incorrect metabolite Y stops because one branch is blocked Incorrect metabolite Y increases because S is redirected into the lower branch Correct MC

ce9d_4fd9

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of R?

metabolite R production is unchanged because the branches are independent Incorrect metabolite R stops because one branch is blocked Incorrect metabolite R decreases because L accumulates upstream Incorrect metabolite R increases because L is redirected into the lower branch Correct MC

bb42_8d5e

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

↘

→

If enzyme E₆ is completely inactivated, what happens to the production of R?

metabolite R stops because one branch is blocked Incorrect metabolite R decreases because O accumulates upstream Incorrect metabolite R production is unchanged because the branches are independent Incorrect metabolite R increases because O is redirected into the upper branch Correct MC

9e96_f31c

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

↘

→

If enzyme E₈ is completely inactivated, what happens to the production of L?

metabolite L stops because one branch is blocked Incorrect metabolite L production is unchanged because the branches are independent Incorrect metabolite L decreases because H accumulates upstream Incorrect metabolite L increases because H is redirected into the upper branch Correct MC

dbad_5f76

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

↘

→

If enzyme E₈ is completely inactivated, what happens to the production of P?

metabolite P decreases because L accumulates upstream Incorrect metabolite P stops because one branch is blocked Incorrect metabolite P increases because L is redirected into the upper branch Correct metabolite P production is unchanged because the branches are independent Incorrect MC

c047_663f

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of M?

metabolite M increases because G is redirected into the lower branch Correct metabolite M stops because one branch is blocked Incorrect metabolite M decreases because G accumulates upstream Incorrect metabolite M production is unchanged because the branches are independent Incorrect MC

dff7_4d7c

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of G?

metabolite G stops because one branch is blocked Incorrect metabolite G production is unchanged because the branches are independent Incorrect metabolite G increases because D is redirected into the upper branch Correct metabolite G decreases because D accumulates upstream Incorrect MC

8ffe_4a49

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

E₉

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of R?

metabolite R increases because K is redirected into the lower branch Correct metabolite R production is unchanged because the branches are independent Incorrect metabolite R stops because one branch is blocked Incorrect metabolite R decreases because K accumulates upstream Incorrect MC

bae2_49c8

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of R?

metabolite R production is unchanged because the branches are independent Incorrect metabolite R increases because K is redirected into the lower branch Correct metabolite R decreases because K accumulates upstream Incorrect metabolite R stops because one branch is blocked Incorrect MC

a6c0_cd9a

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of G?

metabolite G stops because one branch is blocked Incorrect metabolite G decreases because C accumulates upstream Incorrect metabolite G increases because C is redirected into the upper branch Correct metabolite G production is unchanged because the branches are independent Incorrect MC

a001_a955

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of S?

metabolite S stops because one branch is blocked Incorrect metabolite S decreases because L accumulates upstream Incorrect metabolite S increases because L is redirected into the lower branch Correct metabolite S production is unchanged because the branches are independent Incorrect MC

fcec_2b19

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

E₁₁

↘

→

If enzyme E₈ is completely inactivated, what happens to the production of H?

metabolite H stops because one branch is blocked Incorrect metabolite H production is unchanged because the branches are independent Incorrect metabolite H decreases because D accumulates upstream Incorrect metabolite H increases because D is redirected into the upper branch Correct MC

a505_5465

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of O?

metabolite O stops because one branch is blocked Incorrect metabolite O increases because K is redirected into the upper branch Correct metabolite O production is unchanged because the branches are independent Incorrect metabolite O decreases because K accumulates upstream Incorrect MC

ebeb_e5aa

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of O?

metabolite O increases because L is redirected into the upper branch Correct metabolite O production is unchanged because the branches are independent Incorrect metabolite O stops because one branch is blocked Incorrect metabolite O decreases because L accumulates upstream Incorrect MC

ca31_f859

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

↘

→

If enzyme E₆ is completely inactivated, what happens to the production of N?

metabolite N decreases because K accumulates upstream Incorrect metabolite N production is unchanged because the branches are independent Incorrect metabolite N stops because one branch is blocked Incorrect metabolite N increases because K is redirected into the upper branch Correct MC

855e_4926

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

E₉

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of V?

metabolite V decreases because O accumulates upstream Incorrect metabolite V production is unchanged because the branches are independent Incorrect metabolite V increases because O is redirected into the lower branch Correct metabolite V stops because one branch is blocked Incorrect MC

f407_d1c9

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of K?

metabolite K production is unchanged because the branches are independent Incorrect metabolite K stops because one branch is blocked Incorrect metabolite K increases because D is redirected into the lower branch Correct metabolite K decreases because D accumulates upstream Incorrect MC

25b5_1c07

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of W?

metabolite W stops because one branch is blocked Incorrect metabolite W increases because O is redirected into the lower branch Correct metabolite W production is unchanged because the branches are independent Incorrect metabolite W decreases because O accumulates upstream Incorrect MC

796f_d542

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

E₁₁

↘

→

If enzyme E₈ is completely inactivated, what happens to the production of P?

metabolite P production is unchanged because the branches are independent Incorrect metabolite P decreases because L accumulates upstream Incorrect metabolite P stops because one branch is blocked Incorrect metabolite P increases because L is redirected into the upper branch Correct MC

d0d4_b1f1

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of K?

metabolite K increases because G is redirected into the upper branch Correct metabolite K production is unchanged because the branches are independent Incorrect metabolite K stops because one branch is blocked Incorrect metabolite K decreases because G accumulates upstream Incorrect MC

eb10_05e3

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of K?

metabolite K stops because one branch is blocked Incorrect metabolite K production is unchanged because the branches are independent Incorrect metabolite K increases because H is redirected into the upper branch Correct metabolite K decreases because H accumulates upstream Incorrect MC

704f_a087

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of O?

metabolite O stops because one branch is blocked Incorrect metabolite O production is unchanged because the branches are independent Incorrect metabolite O decreases because H accumulates upstream Incorrect metabolite O increases because H is redirected into the lower branch Correct MC

edc5_01bf

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of N?

metabolite N stops because one branch is blocked Incorrect metabolite N increases because H is redirected into the lower branch Correct metabolite N decreases because H accumulates upstream Incorrect metabolite N production is unchanged because the branches are independent Incorrect MC

1ad1_bc48

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

E₁₁

↘

→

If enzyme E₈ is completely inactivated, what happens to the production of L?

metabolite L increases because H is redirected into the upper branch Correct metabolite L production is unchanged because the branches are independent Incorrect metabolite L stops because one branch is blocked Incorrect metabolite L decreases because H accumulates upstream Incorrect MC

6fa9_9935

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of U?

metabolite U increases because O is redirected into the lower branch Correct metabolite U stops because one branch is blocked Incorrect metabolite U production is unchanged because the branches are independent Incorrect metabolite U decreases because O accumulates upstream Incorrect MC

6c42_9298

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of N?

metabolite N decreases because G accumulates upstream Incorrect metabolite N production is unchanged because the branches are independent Incorrect metabolite N increases because G is redirected into the lower branch Correct metabolite N stops because one branch is blocked Incorrect MC

8128_c4fc

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

↘

→

If enzyme E₈ is completely inactivated, what happens to the production of T?

metabolite T decreases because P accumulates upstream Incorrect metabolite T stops because one branch is blocked Incorrect metabolite T production is unchanged because the branches are independent Incorrect metabolite T increases because P is redirected into the upper branch Correct MC

59f4_d7cd

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

E₉

↘

→

If enzyme E₆ is completely inactivated, what happens to the production of N?

metabolite N decreases because K accumulates upstream Incorrect metabolite N increases because K is redirected into the upper branch Correct metabolite N stops because one branch is blocked Incorrect metabolite N production is unchanged because the branches are independent Incorrect MC

3ffc_21e4

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of S?

metabolite S increases because K is redirected into the lower branch Correct metabolite S production is unchanged because the branches are independent Incorrect metabolite S stops because one branch is blocked Incorrect metabolite S decreases because K accumulates upstream Incorrect MC

89eb_c371

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of K?

metabolite K increases because C is redirected into the lower branch Correct metabolite K decreases because C accumulates upstream Incorrect metabolite K stops because one branch is blocked Incorrect metabolite K production is unchanged because the branches are independent Incorrect MC

ac2c_a324

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of O?

metabolite O increases because H is redirected into the lower branch Correct metabolite O stops because one branch is blocked Incorrect metabolite O production is unchanged because the branches are independent Incorrect metabolite O decreases because H accumulates upstream Incorrect MC

ea39_2126

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

E₁₁

↘

→

If enzyme E₈ is completely inactivated, what happens to the production of T?

metabolite T stops because one branch is blocked Incorrect metabolite T decreases because P accumulates upstream Incorrect metabolite T increases because P is redirected into the upper branch Correct metabolite T production is unchanged because the branches are independent Incorrect MC

b088_6217

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

↗

→

E₁

E₂

E₃

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of G?

metabolite G increases because D is redirected into the upper branch Correct metabolite G production is unchanged because the branches are independent Incorrect metabolite G stops because one branch is blocked Incorrect metabolite G decreases because D accumulates upstream Incorrect MC

30d8_f913

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of O?

metabolite O production is unchanged because the branches are independent Incorrect metabolite O decreases because K accumulates upstream Incorrect metabolite O stops because one branch is blocked Incorrect metabolite O increases because K is redirected into the upper branch Correct MC

4e73_cd62

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of V?

metabolite V stops because one branch is blocked Incorrect metabolite V decreases because O accumulates upstream Incorrect metabolite V increases because O is redirected into the lower branch Correct metabolite V production is unchanged because the branches are independent Incorrect MC

b9df_d042

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

E₉

↘

→

If enzyme E₆ is completely inactivated, what happens to the production of J?

metabolite J decreases because G accumulates upstream Incorrect metabolite J stops because one branch is blocked Incorrect metabolite J production is unchanged because the branches are independent Incorrect metabolite J increases because G is redirected into the upper branch Correct MC

f00e_63cd

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

↘

→

If enzyme E₈ is completely inactivated, what happens to the production of H?

metabolite H production is unchanged because the branches are independent Incorrect metabolite H increases because D is redirected into the upper branch Correct metabolite H stops because one branch is blocked Incorrect metabolite H decreases because D accumulates upstream Incorrect MC

dd3c_6565

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of O?

metabolite O production is unchanged because the branches are independent Incorrect metabolite O increases because G is redirected into the lower branch Correct metabolite O stops because one branch is blocked Incorrect metabolite O decreases because G accumulates upstream Incorrect MC

d41e_fa2b

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₄

E₅

E₆

E₇

↗

→

E₁

E₂

E₃

···

→

E₈

E₉

E₁₀

E₁₁

↘

→

If enzyme E₄ is completely inactivated, what happens to the production of T?

metabolite T decreases because L accumulates upstream Incorrect metabolite T increases because L is redirected into the lower branch Correct metabolite T stops because one branch is blocked Incorrect metabolite T production is unchanged because the branches are independent Incorrect MC

63ac_f9ba

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

E₆

↗

→

E₁

E₂

···

→

E₇

E₈

E₉

E₁₀

↘

→

If enzyme E₇ is completely inactivated, what happens to the production of G?

metabolite G stops because one branch is blocked Incorrect metabolite G increases because C is redirected into the upper branch Correct metabolite G production is unchanged because the branches are independent Incorrect metabolite G decreases because C accumulates upstream Incorrect MC

fd3b_36d2

A series of enzymes catalyze reactions involving the metabolites in the branched metabolic pathway shown below. The ellipsis (...) indicates that additional upstream steps are not shown.

E₃

E₄

E₅

↗

→

E₁

E₂

···

→

E₆

E₇

E₈

E₉

↘

→

If enzyme E₃ is completely inactivated, what happens to the production of J?

metabolite J production is unchanged because the branches are independent Incorrect metabolite J stops because one branch is blocked Incorrect metabolite J decreases because C accumulates upstream Incorrect metabolite J increases because C is redirected into the lower branch Correct