1 |
OB_003973 |
Drosophila melanogaster |
|
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
RNAi knockdown |
- |
unknown |
unknown |
|
|
|
increased |
81.00% |
|
|
|
|
|
|
|
RNA-mediated silencing of sod2 results in approximately 81% shorter lifespan. Other phenotypes: RNA interference results in increased oxidative stress and early-onset mortality in young adults |
Kirby et al. |
2002 |
12456885 |
doi:10.1073/pnas.252342899 |
Lifespan Observations Database (ID: 682) |
2 |
OB_001045 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSODX1 |
unknown |
unknown |
|
|
|
increased |
34.51% |
31.65 |
23.53 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2364) |
3 |
OB_001047 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSOD2C |
unknown |
unknown |
|
|
|
increased |
32.51% |
53.88 |
40.66 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2366) |
4 |
OB_003057 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSODX1 |
unknown |
unknown |
|
|
|
increased |
31.44% |
36.83 |
28.02 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 43) |
5 |
OB_001048 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSOD3A |
unknown |
unknown |
|
|
|
increased |
27.27% |
56.28 |
44.22 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2367) |
6 |
OB_001046 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSOD2C |
unknown |
unknown |
|
|
|
increased |
25.43% |
51.93 |
41.4 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2365) |
7 |
OB_005975 |
Drosophila melanogaster |
|
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
Overexpression |
- |
wildtype |
yes |
|
|
|
increased |
20.00% |
|
|
|
maximum |
|
|
|
Gene overexpression resulted in a 20% increase in mean and maximal lifespan. |
Curtis et al. |
2007 |
18067683 |
doi:10.1186/gb-2007-8-12-r262 |
GenAge |
8 |
OB_001052 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSOD2A |
unknown |
unknown |
|
|
|
increased |
12.75% |
62.18 |
55.15 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2370) |
9 |
OB_001049 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSOD3A |
unknown |
unknown |
|
|
|
increased |
11.93% |
54.68 |
48.85 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2368) |
10 |
OB_001053 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSOD3C |
unknown |
unknown |
|
|
|
increased |
11.86% |
34.62 |
30.95 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2371) |
11 |
OB_001050 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSOD2A |
unknown |
unknown |
|
|
|
increased |
9.78% |
60.05 |
54.7 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2369) |
12 |
OB_001060 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Cat |
Drosophila melanogaster |
40048 |
over-expression |
CAT2A2 |
unknown |
unknown |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSODX1 |
unknown |
unknown |
|
|
|
increased |
7.48% |
34.77 |
32.35 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2378) |
13 |
OB_001059 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Cat |
Drosophila melanogaster |
40048 |
over-expression |
CAT2A2 |
unknown |
unknown |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSODX1 |
unknown |
unknown |
|
|
|
increased |
7.43% |
34.57 |
32.18 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2377) |
14 |
OB_001056 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSOD2E |
unknown |
unknown |
|
|
|
increased |
5.06% |
37.19 |
35.4 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2374) |
15 |
OB_001061 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Cat |
Drosophila melanogaster |
40048 |
over-expression |
CAT2A2 |
unknown |
unknown |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSOD3C |
unknown |
unknown |
|
|
|
none |
3.26% |
42.16 |
40.83 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2379) |
16 |
OB_001054 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSOD3C |
unknown |
unknown |
|
|
|
none |
3.00% |
37.44 |
36.35 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2372) |
17 |
OB_001055 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSOD2E |
unknown |
unknown |
|
|
|
none |
-2.14% |
34.83 |
35.59 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2373) |
18 |
OB_001063 |
Drosophila melanogaster |
FLP3 |
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Cat |
Drosophila melanogaster |
40048 |
over-expression |
CAT2A2 |
unknown |
unknown |
Sod2 |
Drosophila melanogaster |
36878 |
over-expression |
mSOD3C |
unknown |
unknown |
|
|
|
decreased |
-6.76% |
37.95 |
40.7 |
days |
mean |
25 |
℃ |
male |
A transgenic system ("FLP-out") based on yeast FLP recombinase allowed induced overexpression of MnSOD enzyme in adult Drosophila melanogaster. With FLP-out a brief heat pulse (HP) of young, adult flies triggered the rearrangement and subsequent expression of a MnSOD transgene throughout the adult life span. Control (no HP) and overexpressing (HP) flies had identical genetic backgrounds. The amount of MnSOD enzyme overexpression achieved varied among six independent transgenic lines, with increases up to 75%. Life span was increased in proportion to the increase in enzyme. Mean life span was increased by an average of 16%, with some lines showing 30-33% increases. Maximum life span was increased by an average of 15%, with one line showing as much as 37% increase. Simultaneous overexpression of catalase with MnSOD had no added benefit, consistent with previous observations that catalase is present in excess in the adult fly with regard to life span. Cu/ZnSOD overexpression also increases mean and maximum life span. For both MnSOD and Cu/ZnSOD lines, increased life span was not associated with decreased metabolic activity, as measured by O2 consumption. |
Sun et al. |
2002 |
12072463 |
|
Lifespan Observations Database (ID: 2380) |
19 |
OB_005974 |
Drosophila melanogaster |
|
Gene Symbol |
Species |
NCBI Gene ID |
Allele Type |
Allele Name |
Reference Allele Type |
Allele Change |
Sod2 |
Drosophila melanogaster |
36878 |
RNA interference |
- |
wildtype |
yes |
|
|
|
decreased |
|
|
|
|
unknown |
|
|
|
RNA interference results in increased oxidative stress and early-onset mortality in young adults. |
Kirby et al. |
2002 |
12456885 |
doi:10.1073/pnas.252342899 |
GenAge |