mProX™ Human PAK6 Stable Cell Line

Sub Cat	Product Name	Target Protein Species	Host Cell Type	Assay Types	Inquiry	Datasheet
S01YF-1222-KX420	Magic™ Human PAK6 in Vitro Assay	Human		Kinase Assay

Product Information

Target Family

Kinases/Enzyme

Target Protein Species

Human

Host Cell Type

HEK293;CHO-K1;HeLa

Target Classification

Kinase Cell Lines

Gene ID

Human:56924

UniProt ID

Human:Q9NQU5

Product Properties

Biosafety Level

Level 1

Activity

Yes

Quantity

10⁶ cells per vial

Applications

PAK6 is involved in various applications, including rumen development and physiological functions in yaks, genetic selection in Zhaotong cattle, noninvasive diagnosis of diabetic nephropathy, and the disruption of the intestinal barrier caused by mycotoxins. In yaks, PAK6 is identified as a hub gene in the blue module and is associated with growth, development, and metabolism. In Zhaotong cattle, PAK6 is one of the key genes related to immune response. In diabetic nephropathy, PAK6 is a potential diagnostic biomarker. Additionally, PAK6 is involved in the regulation of the intestinal barrier and can affect the expression of tight junction proteins. Furthermore, a novel method called TWN-RENCOD utilizes TWNs and PAK6 to compare protein binding sites and understand the characteristics of binding sites in different proteins.

Protocols

Please visit our protocols page.

Customer Reviews

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FAQ

chat Morgan Miller (Verified Customer)

How does PAK6 contribute to esophageal squamous cell carcinoma progression? Oct 30 2021

chat Patrick Liam (Creative Biolabs Scientific Support)

LINC00680, a long non-coding RNA, promotes esophageal squamous cell carcinoma progression by sponging miR-423-5p to enhance PAK6 expression. Oct 30 2021

chat Peyton Smith (Verified Customer)

What is the role of PAK6 in gastric cancer chemoresistance? Nov 11 2021

chat Patrick Liam (Creative Biolabs Scientific Support)

PAK6 enhances chemoresistance to oxaliplatin in gastric cancer through ATR/CHK1 signaling. Nov 11 2021

Published Data

Fig.1 HeLa cell proliferation in response to PAK6 expression level knockdown.

Colony formation assays were employed to assess the proliferative rate of HeLa cells transfected with shPAK6, with a subsequent semi-quantitative analysis of colony numbers conducted.

Ref: Yang, Qin, et al. "PAK6 promotes cervical cancer progression through activation of the Wnt/β‑catenin signaling pathway." Oncology Letters 20.3 (2020): 2387-2395.

Pubmed: 32782556

DOI: 10.3892/ol.2020.11797

Research Highlights

Xue, Song-Tao et al. "Long non-coding RNA LINC00680 functions as a ceRNA to promote esophageal squamous cell carcinoma progression through the miR-423-5p/PAK6 axis." Molecular cancer vol. 21,1 69. 7 Mar. 2022.
In the realm of esophageal squamous cell carcinoma (ESCC), an abundant long non-coding RNA (lncRNA), LINC00680, has emerged as a significant player, showcasing heightened expression levels associated with larger tumor size, advanced disease stage, and bleak prognoses. Extensive investigations revealed its pivotal role in promoting ESCC progression. LINC00680, acting as a competitive endogenous RNA (ceRNA), sequesters miR-423-5p, thus facilitating the expression of PAK6 (p21-activated kinase 6) in ESCC cells. This intricate interplay influences cell proliferation, colony formation, migration, and invasion, both in vitro and in vivo. Moreover, the use of antisense oligonucleotides (ASOs) targeting LINC00680 demonstrates substantial therapeutic potential in restraining ESCC progression. Altogether, these findings illuminate LINC00680/miR-423-5p/PAK6 as promising biomarkers and therapeutic targets in the ESCC landscape.
Xue, Song-Tao et al. "Long non-coding RNA LINC00680 functions as a ceRNA to promote esophageal squamous cell carcinoma progression through the miR-423-5p/PAK6 axis." Molecular cancer vol. 21,1 69. 7 Mar. 2022.
Pubmed: 35255921 DOI: 10.1186/s12943-022-01539-3

Lyu, Yang. et al. "A whole genome scan reveals distinct features of selection in Zhaotong cattle of Yunnan province." Animal genetics, 2023.
In recent years, indigenous cattle have played a significant role in providing food and labor for humans. Among these breeds is the Zhaotong cattle, originating from the Yunnan province in China. This breed is known for its superior meat quality and ability to withstand heat and humidity. To understand the genetic composition and potential beneficial traits of Zhaotong cattle, a study was conducted using whole genome sequencing data from 104 animals. The results revealed that Zhaotong cattle have a genetic makeup mainly influenced by Chinese indicine cattle and East Asian cattle. They also have a high nucleotide diversity compared to other taurine cattle. The study also identified several regions in the genome with potential positive selection signals that contain key genes related to bone development, metabolism, meat quality, immune response, and heat resistance. This study provides valuable genetic insights and serves as a foundation for understanding the genetic basis of indigenous cattle breeds.
Lyu, Yang. et al. "A whole genome scan reveals distinct features of selection in Zhaotong cattle of Yunnan province." Animal genetics, 2023.
Pubmed: 37796667 DOI: 10.1111/age.13363