TH upstream-inhibited UBR5 subnetwork for learning in human left hemisphere|Prostate via nucleus to cytoplasm protein binding

Wang Yuanzhen; WANG Lin; HUANG Juxiang

Chinese︱Feedback︱Save this page

• Elaborating Academic Views 　　　　 • Exchanging Innovative Ideas
• Protecting Intellectual Properties 　　• Fast Sharing Science Papers

Sponsored by the Center for Science and Technology Development of the Ministry of Education
Supervised by Ministry of Education of the People's Republic of China

Home > Papers

TH upstream-inhibited UBR5 subnetwork for learning in human left hemisphere|Prostate via nucleus to cytoplasm protein binding

Wang Yuanzhen,WANG Lin *,HUANG Juxiang

School of Electronic Engineering, Beijing University of Posts and Telecommunications, 100876

*Correspondence author

#Submitted by

Subject:

Funding: National Natural Science Youth Foundation of China （No.81501372）

Opened online: 3 January 2020

Accepted by: none

Citation: Wang Yuanzhen,WANG Lin,HUANG Juxiang.TH upstream-inhibited UBR5 subnetwork for learning in human left hemisphere|Prostate via nucleus to cytoplasm protein binding[OL]. [ 3 January 2020] http://en.paper.edu.cn/en_releasepaper/content/4750367

High tyrosine hydroxylase (TH) upstream-inhibited ubiquitin protein ligase E3 component n-recognin 5 (UBR5) molecular subnetwork was constructed, including feedback sulfotransferase family 1A member 2 (SULT1A2); downstream chromosome 10 open reading frame 10 (C10orf10), heterogeneous nuclear ribonucleoprotein H3 (HNRPH3), UPF3 regulator of nonsense transcripts homolog A (yeast) (UPF3A) reported relation with learning in human left hemisphere. The common biology process of TH upstream-inhibited UBR5 subnetwork was identified by DAVID, containing feedback SULT1A2, downstream HNRPH3, downstream UPF3A, second-core UBR5, first-core TH as protein binding; downstream HNRPH3, downstream UPF3A, second-core UBR5 as RNA binding; feedback SULT1A2, first-core TH as small molecule metabolic process; downstream HNRPH3, downstream UPF3A as nucleotide binding; The common cellular component of downstream HNRPH3, downstream UPF3A, second-core UBR5, first-core TH as nucleus; feedback SULT1A2, downstream UPF3A, first-core TH as cytosol; downstream HNRPH3, downstream UPF3A, second-core UBR5 as nucleoplasm; downstream UPF3A, second-core UBR5, first-core TH as cytoplasm; downstream C10orf10, first-core TH as mitochondrion; The common tissue distributions as Prostate_3rd maybe exist the same pattern with human left hemisphere. We propose and mutual positively verify tyrosine hydroxylase (TH) upstream-inhibited ubiquitin protein ligase E3 component n-recognin 5 (UBR5) subnetwork for learning in human left hemisphere|Prostate via nucleus to cytoplasm protein binding.

Keywords:TH upstream-inhibited UBR5 subnetwork for learning; human left hemisphere|Prostate; nucleus to cytoplasm; protein binding

For this paper

● PDF (0B)
● Revision 0 　　
● Print this paper
● Recommend this paper to a friend
● Add to my favorite list

Saved Papers

Please enter a name for this paper to be shown in your personalized Saved Papers list

Tags

Add yours

Related Papers

Statistics

PDF Downloaded	28
Bookmarked	0
Recommend	0
Comments	Array

Submit your papers

Alert Name:
Alerting to:
Authentication email will be sent to your email address in 24 hours
Frequency:
Email Message Format:	Plain text Graphical(HTML)

Complete the form below and we will recommend the selected titles to your friends on your behalf. * Indicates a required field.
Your name*:
Your email address*:
Recipient's name*:
Recipient's email address*:
(multiple recipient's names and email addresses should be separated with semicolons)
Your comments:	I thought you would find the page(s) useful.

Your name:
Your email address:
Recipient's name:
Recipient's email address:
(multiple recipient's names and email addresses should be separated with semicolons)
Your comments:	I thought you would find this page useful.

Disclaimer: This message was sent to your friend using the "Send it to a friend" facility on the Sciencepaper Online’ WWW site, http://www.paper.edu.cn/en. The Sciencepaper Online is not responsible for the content of this email, and anything said in this email does not necessarily reflect the Sciencepaper Online's views.

	Check out RSS, or use RSS reader to subscribe this item

Saved Papers