| 查看: 4094 | 回复: 68 | |||||
[交流]
【2013-12-31】Frontiers in Microbiology专刊征稿【SCIE】
|
|||||
DNA Replication Origins in Microbial Genomes 导师主持的专刊,如有合适的工作,欢迎各位投稿。如有兴趣,可站内信联系。 http://www.frontiersin.org/evolu ... origins_in_mic/2193 In collaboration with Frontiers in Microbiology, we are organizing a Research Topic titled "DNA Replication Origins in Microbial Genomes”. Frontiers, a Swiss open-access publisher, recently partnered with Nature Publishing Group to expand its researcher-driven Open Science platform. Frontiers articles are rigorously peer-reviewed, can be disseminated freely and are widely read by your colleagues and by the broader scientific and medical research communities. Research Topic DNA replication, a central event for cell proliferation, is the basis of biological inheritance. Complete and accurate DNA replication is integral to the maintenance of the genetic integrity of organisms. In all three domains of life, DNA replication begins at replication origins. In bacteria, replication initiates from a single replication origin (oriC), which contains several DnaA boxes. In eukaryotic genomes, replication initiates from significantly more replication origins, ranging from hundreds in yeast to tens of thousands in human, activated simultaneously at a specific time. For eukaryotic organisms, replication origins are best characterized in the unicellular eukaryote budding yeast Saccharomyces cerevisiae and the fission yeast Schizosaccharomyces pombe. The budding yeast origins contain an essential sequence element called the ARS (autonomously replicating sequence), while the fission yeast origins consist of AT-rich sequences. Within the archaeal domain, the multiple replication origins have been identified by a predict-and-verify approach in the hyperthermophilic archaeon Sulfolobus. Archaeal origins contain two or more short repetitive DNA sequences, known as origin recognition boxes (ORBs). It appears that archaea have a simplified version of the eukaryotic replication apparatus, which has led to considerable interest in the archaeal machinery as a model of that in eukaryotes. The identification of replication origins is important not only in providing insights into the structure and function of the replication origins but also in understanding the regulatory mechanisms of the initiation step in DNA replication. Therefore, intensive studies have been carried out on the identification of replication origins in the last two decades. The pioneer work to identify bacterial oriCs in silico is the GC-skew analysis. Later, a method of cumulative GC skew without sliding windows was proposed to give better resolution. Meanwhile, an oligomer-skew method was also proposed to predict oriC regions in bacterial genomes. As a unique representation of a DNA sequence, the Z-curve method has been proved to be an accurate and effective approach to predict bacterial and archaeal replication origins. Budding yeast origins have been predicted by Oriscan using similarity to the characterized ones, while the fission yeast origins have been indentified initially from AT content calculation. In comparison with the in silico analysis, the experimental methods are convincing and reliable, but time-consuming and labor-intensive. The microbial replication origins can be identified by several experimental methods including construction of replicative oriC plasmids, microarray-based or high-throughput sequencing-based marker frequency analysis, two-dimensional gel electrophoresis analysis and replication initiation point mapping (RIP mapping) etc. The recent genome-wide approaches to identify and characterize replication origin locations have boosted the number of mapped yeast replication origins. The availability of increasing complete microbial genomes and emerging approaches has created challenges and opportunities for identification of their replication origins in silico, as well as in vivo. This research topic invites for the studies of microbial replication origins, addressing all the issues mentioned above, by in silico analyses as well as in vivo experiments. Manuscripts describing original research, methods, opinions, reviews are all welcome, which would provide a comprehensive overview of this field. [ Last edited by 流风易逝 on 2013-11-4 at 12:03 ] |
回复此楼» 猜你喜欢
求计算机方向调剂
已经有6人回复
-
湖南大学刘巧玲课题组2026年第二批次博士研究生招生信息
已经有3人回复
-
通信工程求调剂!!!
已经有7人回复
-
26药学专硕105500求调剂
已经有8人回复
-
297,工科调剂?
已经有11人回复
-
申博自荐
已经有4人回复
-
294求调剂
已经有9人回复
-
289 分105500药学专硕求调剂(找B区学校)
已经有5人回复
-
291求调剂
已经有11人回复
-
304求调剂
已经有8人回复
» 抢金币啦!回帖就可以得到:
-
坐标杭州,诚征女友
+1/249
-
中山大学牛利课题组招收光/电催化方向博士后
+1/84
-
盐城师范学院生物与医药(生物技术与工程领域)还有调剂名额
+1/78
-
坐标广州,征女友
+2/56
-
黑龙江科技大学 化工招收调剂 07理学 08工学 09农学 均可。
+3/51
-
盐城师范学院生物与医药(生物技术与工程领域)还有调剂名额
+1/36
-
生物与医药(生物技术与工程领域)调剂还剩最后一小时,请抓紧时间,
+1/34
-
香港科技大学用于先进LCD器件的偏振发射钙钛矿纳米棒增强薄膜
+1/32
-
上海交通大学-电气工程学院-高温超导磁体-2026年入学全日制博士生招聘
+1/31
-
致中山白雪:于法理与人间,赴一场双向奔赴
+1/27
-
南京林业大学-国家级青年人才团队 招2026级申请考核制博士 (有机合成化学方向)
+1/15
-
贵州师范大学山地环境重点实验室调剂生态学5名,时间4月18日0点——4月19日10点
+1/10
-
招材料相关专业调剂生
+1/9
-
香港城市大学机械系张冏博士课题组招聘博士后
+1/9
-
C13、N15标记植物,助力土壤碳氮循环与地学研究实操
+1/7
-
湖南理工大学 化学、化工调剂指标充足,录取率高,调剂系统最后一次开放
+1/6
-
南京大学FinTech大模型实验室招募斯坦福国际联培博士生和博士后及科研助理
+1/4
-
山东大学集成电路学院招博士了
+1/4
-
求英文文献
+1/2
-
招07理学调剂生,剩余2个名额
+1/1
7楼2013-11-04 12:18:16
9楼2013-11-04 12:19:17
10楼2013-11-04 12:19:31
11楼2013-11-04 12:20:29
21楼2013-11-04 12:36:25
37楼2013-11-04 13:00:54
38楼2013-11-04 13:01:54
简单回复
haixiawu2楼
2013-11-04 12:00
流风易逝(金币+1): 谢谢参与
2013-11-04 12:15
流风易逝(金币+1): 谢谢参与
沧__海4楼
2013-11-04 12:16
流风易逝(金币+1): 谢谢参与
2013-11-04 12:17
流风易逝(金币+1): 谢谢参与
2013-11-04 12:17
流风易逝(金币+1): 谢谢参与
2013-11-04 12:18
流风易逝(金币+1): 谢谢参与
7
clarktao12楼
2013-11-04 12:20
流风易逝(金币+1): 谢谢参与
kaye63913楼
2013-11-04 12:22
流风易逝(金币+1): 谢谢参与
xiaomu7814楼
2013-11-04 12:24
流风易逝(金币+1): 谢谢参与
florahdu15楼
2013-11-04 12:26
流风易逝(金币+1): 谢谢参与
liulinkk16楼
2013-11-04 12:26
流风易逝(金币+1): 谢谢参与
天涯201217楼
2013-11-04 12:27
流风易逝(金币+1): 谢谢参与
miaojiabing18楼
2013-11-04 12:27
流风易逝(金币+1): 谢谢参与
求不重复19楼
2013-11-04 12:31
流风易逝(金币+1): 谢谢参与
paperhunter20楼
2013-11-04 12:35
流风易逝(金币+1): 谢谢参与
wangjingrui22楼
2013-11-04 12:37
流风易逝(金币+1): 谢谢参与
至尊山羊23楼
2013-11-04 12:38
流风易逝(金币+1): 谢谢参与
supervb24楼
2013-11-04 12:39
流风易逝(金币+1): 谢谢参与
落花剑雨25楼
2013-11-04 12:43
流风易逝(金币+1): 谢谢参与
杰克小龙26楼
2013-11-04 12:44
流风易逝(金币+1): 谢谢参与
xiejf27楼
2013-11-04 12:45
流风易逝(金币+1): 谢谢参与
huigoo28楼
2013-11-04 12:45
流风易逝(金币+1): 谢谢参与
张鑫198229楼
2013-11-04 12:45
流风易逝(金币+1): 谢谢参与
lonelyhere30楼
2013-11-04 12:47
流风易逝(金币+1): 谢谢参与
huigoo31楼
2013-11-04 12:48
尘轩无梦32楼
2013-11-04 12:50
流风易逝(金币+1): 谢谢参与
。 [ 发自手机版 http://muchong.com/3g ]
chenyh71833楼
2013-11-04 12:54
流风易逝(金币+1): 谢谢参与
1 [ 发自手机版 http://muchong.com/3g ]
JOEF34楼
2013-11-04 12:56
流风易逝(金币+1): 谢谢参与
! [ 发自手机版 http://muchong.com/3g ]
裤兜有烟35楼
2013-11-04 12:57
流风易逝(金币+1): 谢谢参与
xianzhi201036楼
2013-11-04 12:59
流风易逝(金币+1): 谢谢参与
zhoupeng8739楼
2013-11-04 13:03
流风易逝(金币+1): 谢谢参与
·
木米月厷40楼
2013-11-04 13:04
流风易逝(金币+1): 谢谢参与
taochao41楼
2013-11-04 13:07
流风易逝(金币+1): 谢谢参与
yuyu860242楼
2013-11-04 13:08
流风易逝(金币+1): 谢谢参与
zbdfwq577743楼
2013-11-04 13:13
流风易逝(金币+1): 谢谢参与
liang888744楼
2013-11-04 13:15
流风易逝(金币+1): 谢谢参与
MRU烟气专家45楼
2013-11-04 13:20
流风易逝(金币+1): 谢谢参与
放大镜46楼
2013-11-04 13:41
流风易逝(金币+1): 谢谢参与
mv47楼
2013-11-04 13:47
流风易逝(金币+1): 谢谢参与
icebergwu48楼
2013-11-04 13:53
流风易逝(金币+1): 谢谢参与
aboluo19833149楼
2013-11-04 13:58
流风易逝(金币+1): 谢谢参与
laosi50950楼
2013-11-04 14:02
流风易逝(金币+1): 谢谢参与
