-
01:26
1.
Multiplexed sequencing process
-
00:47
2.
Paired-End Sequence
-
02:13
3.
Mate Paired Analysis
-
02:11
4.
Mate-Paired Library
-
03:19
5.
Usages of Paired-end / Mate-paired Reads
-
01:35
6.
Illumina System: Low-Mid Throughput
-
00:44
7.
Other Sequencing Technology
-
05:28
8.
Complete Genomics
-
06:15
9.
Complete Genomics: building DNA nanoballs
-
01:30
10.
Complete Genomics: arraying
-
05:24
11.
Complete Genomics: sequencing by ligation
-
00:12
12.
Complete Genomics: data analysis
-
00:19
13.
Other Sequencing Technology
-
01:55
14.
Nanopore Sequencing
-
02:29
15.
Nanopore Sequencing
-
01:58
16.
Oxford Nanopore Sequencing
-
01:36
17.
Oxford Nanopore Sequencing
-
00:40
18.
Oxford Nanopore Sequencing
-
03:05
19.
Oxford nanopore minion video
-
00:28
20.
Question: how to decrease sequencing error by using nanopore sequencing?
-
02:51
21.
NABsys: Hybridization-Assisted Nanopore Sequencing Platform
-
00:58
22.
NABsys: Hybridization-Assisted Nanopore Sequencing Platform
-
01:19
23.
NABsys: Hybridization-Assisted Nanopore Sequencing Platform
-
00:42
24.
NABsys: Hybridization-Assisted Nanopore Sequencing Platform
-
01:19
25.
Sequencing by Expansion
-
01:01
26.
Sequencing by Expansion
-
00:28
27.
Sequencing by Expansion
-
00:35
28.
Sequencing by Expansion
-
02:19
29.
Other Sequencing Technology
-
00:43
30.
Pacific Bioscience
-
02:41
31.
Zero-mode Waveguide
-
01:36
32.
Zero-mode Waveguide
-
01:10
33.
Reaction Time for Single-molecule DNA Polymerase Activity
-
01:18
34.
Pacific Bioscience
-
02:09
35.
Pacific Bioscience
-
02:12
36.
PacBio Sequencing
-
01:27
37.
PacBio Sequence Generation
-
00:22
38.
Other Sequencing Technology
-
03:07
39.
Question?
-
02:05
40.
Semiconductor Sequencing:Ion Torrent
-
01:23
41.
Semiconductor Sequencing:Ion Torrent
-
00:55
42.
Semiconductor Sequencing
-
00:29
43.
Semiconductor Sequencing
-
00:32
44.
Other Sequencing Technology
-
00:59
45.
Synthetic Long-Read Sequencing10x Genomics
-
02:20
46.
Synthetic Long-Read Sequencing10x Genomics
-
01:28
47.
Linked reads: fragments sharing a same barcode that are derived from a single long moleculeEach long fragment can be stacked, combining their individual coverage into an overall map
-
01:12
48.
Various capture methods
-
02:18
49.
Single Cell RNA Sequencing
-
03:38
50.
Single Cell RNA Sequencing
-
01:39
51.
Unique Molecular Identifiers (UMI)
-
03:13
52.
Single Cell RNA Sequencing
-
01:08
53.
Comparison of Various Long-Read Methods
-
01:12
54.
Pros & Cons of Long-Read Platforms
-
02:38
55.
Cite Seq