-
00:00
1.
index 1
-
00:29
2.
Slide 1
-
00:33
3.
RNA methylation (m6A)
-
00:42
4.
Slide 1
-
01:06
5.
RNA methylation (m6A)
-
01:49
6.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
01:50
7.
RNA methylation (m6A)
-
02:34
8.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
08:22
9.
m6A motif
-
08:51
10.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
11:04
11.
m6A motif
-
13:07
12.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
13:26
13.
m6A motif
-
13:27
14.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
13:27
15.
m6A motif
-
13:28
16.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
15:15
17.
m6A motif
-
15:16
18.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
15:17
19.
m6A motif
-
15:17
20.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
15:49
21.
m6A motif
-
15:50
22.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
19:54
23.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
24:56
24.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
25:06
25.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
26:02
26.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
26:36
27.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
28:14
28.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
30:12
29.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
37:56
30.
Summary 1To assess overall levels of m6A modification in gastric cancer……
-
37:58
31.
Fig. 1 MeRIP-seq reveals correlation between m6A and cell adhesion, and ALKBH5 is associated with GC prognosis
-
38:26
32.
Summary 1To assess overall levels of m6A modification in gastric cancer……
-
39:30
33.
Fig. 2 ALKBH5 inhibits cell invasion in vitro
-
41:24
34.
Fig. 2 ALKBH5 inhibits cell invasion in vitro
-
41:26
35.
Fig. 2 ALKBH5 inhibits cell invasion in vitro
-
43:05
36.
Fig. 2 ALKBH5 inhibits cell invasion in vitro
-
43:50
37.
Fig. 2 ALKBH5 inhibits cell invasion in vitro
-
48:46
38.
S2
-
49:30
39.
Slide 14
-
49:35
40.
RNA-seq
-
49:54
41.
Slide 14
-
49:54
42.
S2
-
49:55
43.
Fig. 2 ALKBH5 inhibits cell invasion in vitro
-
49:55
44.
Fig. 2 ALKBH5 inhibits cell invasion in vitro
-
49:55
45.
Fig. 2 ALKBH5 inhibits cell invasion in vitro
-
49:59
46.
Fig. 2 ALKBH5 inhibits cell invasion in vitro
-
49:59
47.
Fig. 2 ALKBH5 inhibits cell invasion in vitro
-
49:59
48.
S2
-
50:00
49.
Slide 14
-
50:28
50.
RNA-seq
-
51:31
51.
Fig. 3 PKMYT1 was identified as a downstream target of ALKBH5
-
51:34
52.
RNA-seq
-
58:33
53.
Fig. 3 PKMYT1 was identified as a downstream target of ALKBH5
-
1:00:10
54.
Fig. 3 PKMYT1 was identified as a downstream target of ALKBH5
-
1:01:52
55.
Fig. 3 PKMYT1 was identified as a downstream target of ALKBH5
-
1:04:17
56.
Fig. 3 PKMYT1 was identified as a downstream target of ALKBH5
-
1:04:20
57.
Fig. 3 PKMYT1 was identified as a downstream target of ALKBH5
-
1:04:34
58.
Fig. 3 PKMYT1 was identified as a downstream target of ALKBH5
-
1:11:33
59.
Slide 20
-
1:11:34
60.
Fig. 3 PKMYT1 was identified as a downstream target of ALKBH5
-
1:12:03
61.
Slide 20
-
1:12:24
62.
Fig. 4 ALKBH5 regulates PKMYT1 via its m6A-dependent manner
-
1:15:12
63.
Fig. 4 ALKBH5 regulates PKMYT1 via its m6A-dependent manner
-
1:17:57
64.
Fig. 4 ALKBH5 regulates PKMYT1 via its m6A-dependent manner
-
1:17:58
65.
Fig. 4 ALKBH5 regulates PKMYT1 via its m6A-dependent manner
-
1:24:29
66.
Fig. 4 ALKBH5 regulates PKMYT1 via its m6A-dependent manner
-
1:26:22
67.
Slide 24
-
1:26:38
68.
Fig. 5 ALKBH5 and IGF2BP3 together regulates the expression of PKMYT1 via its m6A modification
-
1:28:36
69.
Fig. 5 ALKBH5 and IGF2BP3 together regulates the expression of PKMYT1 via its m6A modification
-
1:29:17
70.
Fig. 5 ALKBH5 and IGF2BP3 together regulates the expression of PKMYT1 via its m6A modification
-
1:30:44
71.
Fig. 5 ALKBH5 and IGF2BP3 together regulates the expression of PKMYT1 via its m6A modification
-
1:33:17
72.
Fig. 5 ALKBH5 and IGF2BP3 together regulates the expression of PKMYT1 via its m6A modification
-
1:34:19
73.
Summary 5investigate the potential “reader” in m6A modification of PKMYT1 ……
-
1:34:22
74.
Fig. 6 ALKBH5-PKMYT1-IGF2BP3 axis inhibits invasion and migration in vivo
-
1:36:24
75.
Fig. 6 ALKBH5-PKMYT1-IGF2BP3 axis inhibits invasion and migration in vivo
-
1:36:58
76.
Fig. 6 ALKBH5-PKMYT1-IGF2BP3 axis inhibits invasion and migration in vivo
-
1:37:00
77.
Fig. 6 ALKBH5-PKMYT1-IGF2BP3 axis inhibits invasion and migration in vivo
-
1:37:05
78.
Fig. 6 ALKBH5-PKMYT1-IGF2BP3 axis inhibits invasion and migration in vivo
-
1:38:22
79.
Slide 34
-
1:39:41
80.
** after 20220307_逸安 (Demethylase ALKBH5 suppresses invasion of gastric cancer via PKMYT1 m6A modifcation).pptx