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1. ARMC5 controls the degradation of most Pol II subunits, and ARMC5 mutation increases neural tube defect risks in mice and humans

2. Variants in LSM7 impair LSM complexes assembly, neurodevelopment in zebrafish and may be associated with an ultra-rare neurological disease

3. Absence of neurological abnormalities in mice homozygous for the Polr3a G672E hypomyelinating leukodystrophy mutation

4. Ser-Phosphorylation of PCSK9 (Proprotein Convertase Subtilisin-Kexin 9) by Fam20C (Family With Sequence Similarity 20, Member C) Kinase Enhances Its Ability to Degrade the LDLR (Low-Density Lipoprotein Receptor)

5. Leukodystrophy-associated POLR3A mutations down-regulate the RNA polymerase III transcript and important regulatory RNA BC200

6. Variants in

7. Variants in LSM7 impair LSM complexes assembly, neurodevelopment in zebrafish and may be associated with an ultra-rare neurological disease

9. Bi-allelic Mutations in EPRS, Encoding the Glutamyl-Prolyl-Aminoacyl-tRNA Synthetase, Cause a Hypomyelinating Leukodystrophy

10. Abnormal expression of RNA polymerase II-associated proteins in muscle of patients with myofibrillar myopathies

11. Nuclear import of RNA polymerase II is coupled with nucleocytoplasmic shuttling of the RNA polymerase II-associated protein 2

12. Absence of neurological abnormalities in mice homozygous for the Polr3a G672E hypomyelinating leukodystrophy mutation

13. Navigating 'Deuteronomistic History' as Cultural Memory

14. High-resolution mapping of the protein interaction network for the human transcription machinery and affinity purification of RNA polymerase II-associated complexes

15. Genomic location of the human RNA polymerase II general machinery: evidence for a role of TFIIF and Rpb7 at both early and late stages of transcription

16. Recessive mutations in POLR1C cause a leukodystrophy by impairing biogenesis of RNA polymerase III

17. Proteomic Analysis Reveals a Role for the GTPase RPAP4/GPN1 and the Cochaperone RPAP3 in Biogenesis of All Three Nuclear RNA Polymerases

18. Localization of Subunits of Transcription Factors IIE and IIF Immediately Upstream of the Transcriptional Initiation Site of the Adenovirus Major Late Promoter

19. Discovery of Cell Compartment Specific Protein–Protein Interactions using Affinity Purification Combined with Tandem Mass Spectrometry

20. The protein interaction network of the human transcription machinery reveals a role for the conserved GTPase RPAP4/GPN1 and microtubule assembly in nuclear import and biogenesis of RNA polymerase II

21. Nuclear import of RNA polymerase II requires the conserved GPN‐loop GTPase XAB1/GPN1

22. Use of Site-Specific Protein–DNA Photocrosslinking of Purified Complexes to Analyze the Topology of the RNA Polymerase II Transcription Initiation Complex

24. Systematic analysis of the protein interaction network for the human transcription machinery reveals the identity of the 7SK capping enzyme

25. A NETWORK OF PROTEIN COMPLEXES SIGNALING TO THE RNA POLYMERASE II TRANSCRIPTION APPARATUS IN HUMAN CELLS

26. RPAP1, a Novel Human RNA Polymerase II-Associated Protein Affinity Purified with Recombinant Wild-Type and Mutated Polymerase Subunits

27. Ordered Conformational Changes in Damaged DNA Induced by Nucleotide Excision Repair Factors*

28. Photo-Cross-Linking of a Purified Preinitiation Complex Reveals Central Roles for the RNA Polymerase II Mobile Clamp and TFIIE in Initiation Mechanisms

29. Site-specific protein-DNA photocross-linking of purified complexes: topology of the RNA polymerase II transcription initiation complex

30. Structural and functional interactions of transcription factor (TF) IIA with TFIIE and TFIIF in transcription initiation by RNA polymerase II

31. Wrapping of Promoter DNA around the RNA Polymerase II Initiation Complex Induced by TFIIF

32. RAP74 induces promoter contacts by RNA polymerase II upstream and downstream of a DNA bend centered on the TATA box

33. Molecular organization of RNA polymerase II transcription complexes

34. Genomic location of the human RNA polymerase II general machinery: evidence for a role of TFIIF and Rpb7 at both early and late stages of transcription.

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