OpenAlex | The ARPKD Protein DZIP1L Regulates Ciliary Protein Entry by Modulating the Architecture and Function of Ciliary Transition Fibers

The ARPKD Protein DZIP1L Regulates Ciliary Protein Entry by Modulating the Architecture and Function of Ciliary Transition Fibers

Work

Year: 2024

Type: article

Abstract: Serving as the cell's sensory antennae, primary cilia are linked to numerous human genetic diseases when they malfunction. DZIP1L, identified as one of the genetic causes of human autosomal recessive... more

Source: Advanced Science

Authors Huicheng Chen, Zhimao Wu, Ziwei Yan, Chuan Chen, Yingying Zhang +5 more

Institutions Chinese Academy of Sciences, Center for Excellence in Molecular Plant Sciences, University of Chinese Academy of Sciences, Shenzhen Institutes of Advanced Technology, WinnMed +3 more

Cites: 48

Cited by: 1

Related to: 10

FWCI: 1.393

Citation percentile (by year/subfield): 78.19

Topic: Genetic and Kidney Cyst Diseases

Subfield: Genetics

Field: Biochemistry, Genetics and Molecular Biology

Domain: Life Sciences

Open Access status: gold

APC paid (est): $5,000

Funders National Natural Science Foundation of China, National Institutes of Health, National Institutes of Health, Center for Clinical and Translational Science, Mayo Clinic

Grant IDS 32070692, R01DK099160, R01DK090038, none