The mRNA stability factor Khd4 defines a specific mRNA regulon for membrane trafficking in the pathogen Ustilago maydis

This ARC Annoteted Research Context contains the original data of the Sankaranarayanan et al. publication.

Original Publication

Sankaranarayanan S, Haag C, Petzsch P, Köhrer K, Matuszyńska A, Zarnack K, Feldbrügge M. The mRNA stability factor Khd4 defines a specific mRNA regulon for membrane trafficking in the pathogen Ustilago maydis. Proc Natl Acad Sci U S A. 2023 Aug 22;120(34):e2301731120. doi: 10.1073/pnas.2301731120. Epub 2023 Aug 17. PMID: 37590419; PMCID: PMC10450656.

https://www.pnas.org/doi/10.1073/pnas.2301731120

Table of Contents

1. Abstract
2. Studies
3. Assays
4. Licence

Abstract

Fungal pathogens depend on sophisticated gene expression programs for successful infection. A crucial component is RNA regulation mediated by RNA- binding proteins (RBPs). However, little is known about the spatiotemporal RNA control mechanisms during fungal pathogenicity. Here, we discover that the RBP Khd4 defines a distinct mRNA regulon to orchestrate membrane trafficking during pathogenic development of Ustilago maydis. By establishing hyperTRIBE for fungal RBPs, we generated a com-prehensive transcriptome- wide map of Khd4 interactions in vivo. We identify a defined set of target mRNAs enriched for regulatory proteins involved, e.g., in GTPase sign-aling. Khd4 controls the stability of target mRNAs via its cognate regulatory element AUACCC present in their 3′ untranslated regions. Studying individual examples reveals a unique link between Khd4 and vacuole maturation. Thus, we uncover a distinct role for an RNA stability factor defining a specific mRNA regulon for membrane trafficking during pathogenicity.

Studies

The Studies (S) are named after the names of the chapters in the publication.

S1_Loss_of_Khd4_Causes_Defects_in_Polar_Growth_of_Infectious_Hyphae
S2_Establishing_HyperTRIBE_for_Fungal_RBPs
S3_Khd4_Interacts_with_mRNAs_Enriched_for_Its_Binding_Motif_AUACCC
S4_Loss_of_Khd4_Increases_the_Abundance_of_mRNAs_with_AUACCC_Motif_in_Their_3UTR
S5_AUACCC_in_the_3_UTR_Functions_as_a_Khd4-Dependent_mRNA_Stability_Element
S6_Khd4_Tightly_Regulates_the_Expression_of_Distinct_Targets_Involved_in_Membrane_Trafficking
S7_Loss_of_Khd4_Causes_Dysregulation_of_Membrane-Trafficking_Factors_in_khd4D_Cells
S8_Loss_of_Khd4_Causes_Defects_in_Vacuole_Formation_and_Localization

Assays

The Assays (A) folder contains the results of the individual experiments. The raw and processed data are stored in the dataset folder of the assay and the corresponding protocols are in the protocol folder.

Chapter 1: S1_Loss_of_Khd4_Causes_Defects_in_Polar_Growth_of_Infectious_Hyphae

S1_A1_microscopy_yeast Figure S1
S1_A2_microscopy_hyphae Figure 1

Chapter 2: S2_Establishing_HyperTRIBE_for_Fungal_RBPs

S2_A1_microscopy_Rrm4_Ada_strains_DIC+Rrm4-GFP Figure S2C-F
S2_A2_protein_expression Figure S3 A
S2_A3_microscopy_Rfp_Gfp Figure S3 B-C
S2_A4_HyperTRIBE_Rrm4_analysis Figure 2C, Figure S4 A-D
S2_A5_HyperTRIBE_Rrm4_iCLIP Figure 2D, Figure S4 E-G

Chapter 3: S3_Khd4_Interacts_with_mRNAs_Enriched_for_Its_Binding_Motif_AUACCC

S3_A1_microscopy_Khd4-Gfp Figure S5 C-E
S3_A2_Khd4-Ada-strains_protein_expression Figure S5 F-G
S3_A3_HyperTRIBE_Khd4_workflow Figure 3A, Figure S6A
S3_A4_HyperTRIBE_motif_analysis Figure S6 B-E, Figure 3, Figure S7, Figure S8 A-D
S3_A5_GO-term Figure S8 E, Figure S9

Chapter 4: S4_Loss_of_Khd4_Increases_the_Abundance_of_mRNAs_with_AUACCC_Motif_in_Their_3UTR

S4_A1_RNAseq_data Figure 4 A-C, Fig S10A
S4_A2_RNAseq_analysis_khd4D_vs_wt_hyphae Figure 4 A-C, Fig S10A

Chapter 5: S5_AUACCC_in_the_3_UTR_Functions_as_a_Khd4-Dependent_mRNA_Stability_Element

S5_A1_microscopy_khd4-targets Figure S10B
S5_A2_Kat_protein_level Figure S10C, Figure 4E
S5_A3_Kat_mRNA_level Figure 4F

Chapter 6: S6_Khd4_Tightly_Regulates_the_Expression_of_Distinct_Targets_Involved_in_Membrane_Trafficking

S6_A1_RNAseq_analysis_yeast_vs_hyphae Figure 5 A-C, Figure 6, Figure S13 A-B
S6_A2_analysis_specific_targets Figure 11 B-D
S6_A3_Kat-strains_microscopy Figure 5D, Figure S11 F
S6_A4_relative_fluorescence_level Figure S11 G

Chapter 7: S7_Loss_of_Khd4_Causes_Dysregulation_of_Membrane-Trafficking_Factors_in_khd4D_Cells

see S6_A1 and S6_A2

Chapter 8: S8_Loss_of_Khd4_Causes_Defects_in_Vacuole_Formation_and_Localization

S8_A1_microscopy_FM4-64 Figure S13 C-D
S8_A2_microscopy_CAMG Figure 7

License

Copyright © 2023 the Author(s). Published by PNAS. This article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND).