The Transcriptome of the Human Pathogen at Single-Nucleotide Resolution
The genome of Trypanosoma brucei, the causative agent of African trypanosomiasis, was published five years ago, yet identification of all genes and their transcripts remains to be accomplished. Annotation is challenged by the organization of genes transcribed by RNA polymerase II (Pol II) into long unidirectional gene clusters with no knowledge of how transcription is initiated. Here we report a single-nucleotide resolution genomic map of the T. brucei transcriptome, adding 1,114 new transcripts, including 103 non-coding RNAs, confirming and correcting many of the annotated features and revealing an extensive heterogeneity of 5′ and 3′ ends. Some of the new transcripts encode polypeptides that are either conserved in T. cruzi and Leishmania major or were previously detected in mass spectrometry analyses. High-throughput RNA sequencing (RNA-Seq) was sensitive enough to detect transcripts at putative Pol II transcription initiation sites. Our results, as well as recent data from the literature, indicate that transcription initiation is not solely restricted to regions at the beginning of gene clusters, but may occur at internal sites. We also provide evidence that transcription at all putative initiation sites in T. brucei is bidirectional, a recently recognized fundamental property of eukaryotic promoters. Our results have implications for gene expression patterns in other important human pathogens with similar genome organization (Trypanosoma cruzi, Leishmania sp.) and revealed heterogeneity in pre-mRNA processing that could potentially contribute to the survival and success of the parasite population in the insect vector and the mammalian host.
Vyšlo v časopise:
The Transcriptome of the Human Pathogen at Single-Nucleotide Resolution. PLoS Pathog 6(9): e32767. doi:10.1371/journal.ppat.1001090
Kategorie:
Research Article
prolekare.web.journal.doi_sk:
https://doi.org/10.1371/journal.ppat.1001090
Souhrn
The genome of Trypanosoma brucei, the causative agent of African trypanosomiasis, was published five years ago, yet identification of all genes and their transcripts remains to be accomplished. Annotation is challenged by the organization of genes transcribed by RNA polymerase II (Pol II) into long unidirectional gene clusters with no knowledge of how transcription is initiated. Here we report a single-nucleotide resolution genomic map of the T. brucei transcriptome, adding 1,114 new transcripts, including 103 non-coding RNAs, confirming and correcting many of the annotated features and revealing an extensive heterogeneity of 5′ and 3′ ends. Some of the new transcripts encode polypeptides that are either conserved in T. cruzi and Leishmania major or were previously detected in mass spectrometry analyses. High-throughput RNA sequencing (RNA-Seq) was sensitive enough to detect transcripts at putative Pol II transcription initiation sites. Our results, as well as recent data from the literature, indicate that transcription initiation is not solely restricted to regions at the beginning of gene clusters, but may occur at internal sites. We also provide evidence that transcription at all putative initiation sites in T. brucei is bidirectional, a recently recognized fundamental property of eukaryotic promoters. Our results have implications for gene expression patterns in other important human pathogens with similar genome organization (Trypanosoma cruzi, Leishmania sp.) and revealed heterogeneity in pre-mRNA processing that could potentially contribute to the survival and success of the parasite population in the insect vector and the mammalian host.
Zdroje
1. BerrimanM
GhedinE
Hertz-FowlerC
BlandinG
RenauldH
2005 The genome of the African trypanosome Trypanosoma brucei. Science 309 416 422
2. AslettM
AurrecoecheaC
BerrimanM
BrestelliJ
BrunkBP
2010 TriTrypDB: a functional genomic resource for the Trypanosomatidae. Nucleic Acids Res 38 D457 462
3. ClaytonCE
2002 Life without transcriptional control? From fly to man and back again. EMBO J 21 1881 1888
4. Martinez-CalvilloS
YanS
NguyenD
FoxM
StuartK
2003 Transcription of Leishmania major Friedlin chromosome 1 initiates in both directions within a single region. Mol Cell 11 1291 1299
5. Martinez-CalvilloS
NguyenD
StuartK
MylerPJ
2004 Transcription initiation and termination on Leishmania major chromosome 3. Eukaryot Cell 3 506 517
6. PalencharJB
BellofattoV
2006 Gene transcription in trypanosomes. Mol Biochem Parasitol 146 135 141
7. LeBowitzJH
SmithHQ
RuscheL
BeverleySM
1993 Coupling of poly(A) site selection and trans-splicing in Leishmania. Genes Dev 7 996 1007
8. MatthewsKR
TschudiC
UlluE
1994 A common pyrimidine-rich motif governs trans-splicing and polyadenylation of tubulin polycistronic pre-mRNA in trypanosomes. Genes Dev 8 491 501
9. PerryKL
WatkinsKP
AgabianN
1987 Trypanosome mRNAs have unusual “cap 4” structures acquired by addition of a spliced leader. Proc Natl Acad Sci U S A 84 8190 8194
10. HastingsKE
2005 SL trans-splicing: easy come or easy go? Trends Genet 21 240 247
11. LiangXH
HaritanA
UlielS
MichaeliS
2003 Trans and cis splicing in trypanosomatids: mechanism, factors, and regulation. Eukaryot Cell 2 830 840
12. SiegelTN
TanKS
CrossGA
2005 Systematic study of sequence motifs for RNA trans splicing in Trypanosoma brucei. Mol Cell Biol 25 9586 9594
13. BenzC
NilssonD
AnderssonB
ClaytonC
GuilbrideDL
2005 Messenger RNA processing sites in Trypanosoma brucei. Mol Biochem Parasitol 143 125 134
14. Lopez-EstranoC
TschudiC
UlluE
1998 Exonic sequences in the 5′ untranslated region of alpha-tubulin mRNA modulate trans splicing in Trypanosoma brucei. Mol Cell Biol 18 4620 4628
15. UlluE
MatthewsKR
TschudiC
1993 Temporal order of RNA-processing reactions in trypanosomes: rapid trans splicing precedes polyadenylation of newly synthesized tubulin transcripts. Mol Cell Biol 13 720 725
16. GopalS
AwadallaS
GaasterlandT
CrossGA
2005 A computational investigation of kinetoplastid trans-splicing. Genome Biol 6 R95
17. SiegelTN
HekstraDR
WangX
DewellS
CrossGA
2010 Genome-wide analysis of mRNA abundance in two life-cycle stages of Trypanosoma brucei and identification of splicing and polyadenylation sites. Nucleic Acids Res In press
18. WangZ
GersteinM
SnyderM
2009 RNA-Seq: a revolutionary tool for transcriptomics. Nat Rev Genet 10 57 63
19. RubenL
EgwuaguC
PattonCL
1983 African trypanosomes contain calmodulin which is distinct from host calmodulin. Biochim Biophys Acta 758 104 113
20. NagalakshmiU
WangZ
WaernK
ShouC
RahaD
2008 The transcriptional landscape of the yeast genome defined by RNA sequencing. Science 320 1344 1349
21. IvensAC
PeacockCS
WortheyEA
MurphyL
AggarwalG
2005 The genome of the kinetoplastid parasite, Leishmania major. Science 309 436 442
22. MairG
ShiH
LiH
DjikengA
AvilesHO
2000 A new twist in trypanosome RNA metabolism: cis-splicing of pre-mRNA. RNA 6 163 169
23. TrapnellC
PachterL
SalzbergSL
2009 TopHat: discovering splice junctions with RNA-Seq. Bioinformatics 25 1105 1111
24. DunbarDA
ChenAA
WormsleyS
BasergaSJ
2000 The genes for small nucleolar RNAs in Trypanosoma brucei are organized in clusters and are transcribed as a polycistronic RNA. Nucleic Acids Res 28 2855 2861
25. LiangXH
UlielS
HuryA
BarthS
DonigerT
2005 A genome-wide analysis of C/D and H/ACA-like small nucleolar RNAs in Trypanosoma brucei reveals a trypanosome-specific pattern of rRNA modification. RNA 11 619 645
26. BridgesDJ
PittAR
HanrahanO
BrennanK
VoorheisHP
2008 Characterisation of the plasma membrane subproteome of bloodstream form Trypanosoma brucei. Proteomics 8 83 99
27. BroadheadR
DaweHR
FarrH
GriffithsS
HartSR
2006 Flagellar motility is required for the viability of the bloodstream trypanosome. Nature 440 224 227
28. HaanstraJR
StewartM
LuuVD
van TuijlA
WesterhoffHV
2008 Control and regulation of gene expression: quantitative analysis of the expression of phosphoglycerate kinase in bloodstream form Trypanosoma brucei. J Biol Chem 283 2495 2507
29. VelculescuVE
ZhangL
ZhouW
VogelsteinJ
BasraiMA
1997 Characterization of the yeast transcriptome. Cell 88 243 251
30. HolstegeFC
JenningsEG
WyrickJJ
LeeTI
HengartnerCJ
1998 Dissecting the regulatory circuitry of a eukaryotic genome. Cell 95 717 728
31. CarterMG
SharovAA
VanBurenV
DudekulaDB
CarmackCE
2005 Transcript copy number estimation using a mouse whole-genome oligonucleotide microarray. Genome Biol 6 R61
32. PanigrahiAK
OgataY
ZikovaA
AnupamaA
DalleyRA
2009 A comprehensive analysis of Trypanosoma brucei mitochondrial proteome. Proteomics 9 434 450
33. KondoT
HashimotoY
KatoK
InagakiS
HayashiS
2007 Small peptide regulators of actin-based cell morphogenesis encoded by a polycistronic mRNA. Nat Cell Biol 9 660 665
34. GalindoMI
PueyoJI
FouixS
BishopSA
CousoJP
2007 Peptides encoded by short ORFs control development and define a new eukaryotic gene family. PLoS Biol 5 e106
35. ThomasS
GreenA
SturmNR
CampbellDA
MylerPJ
2009 Histone acetylations mark origins of polycistronic transcription in Leishmania major. BMC Genomics 10 152
36. SiegelTN
HekstraDR
KempLE
FigueiredoLM
LowellJE
2009 Four histone variants mark the boundaries of polycistronic transcription units in Trypanosoma brucei. Genes Dev 23 1063 1076
37. MarchettiMA
TschudiC
SilvaE
UlluE
1998 Physical and transcriptional analysis of the Trypanosoma brucei genome reveals a typical eukaryotic arrangement with close interspersionof RNA polymerase II- and III-transcribed genes. Nucleic Acids Res 26 3591 3598
38. CarninciP
SandelinA
LenhardB
KatayamaS
ShimokawaK
2006 Genome-wide analysis of mammalian promoter architecture and evolution. Nat Genet 38 626 635
39. SeilaAC
CalabreseJM
LevineSS
YeoGW
RahlPB
2008 Divergent transcription from active promoters. Science 322 1849 1851
40. CoreLJ
WaterfallJJ
LisJT
2008 Nascent RNA sequencing reveals widespread pausing and divergent initiation at human promoters. Science 322 1845 1848
41. PauwsE
van KampenAH
van de GraafSA
de VijlderJJ
Ris-StalpersC
2001 Heterogeneity in polyadenylation cleavage sites in mammalian mRNA sequences: implications for SAGE analysis. Nucleic Acids Res 29 1690 1694
42. PickrellJK
MarioniJC
PaiAA
DegnerJF
EngelhardtBE
2010 Understanding mechanisms underlying human gene expression variation with RNA sequencing. Nature 464 768 772
43. RoySW
GilbertW
2006 The evolution of spliceosomal introns: patterns, puzzles and progress. Nat Rev Genet 7 211 221
44. ContiE
IzaurraldeE
2005 Nonsense-mediated mRNA decay: molecular insights and mechanistic variations across species. Curr Opin Cell Biol 17 316 325
45. KaernM
ElstonTC
BlakeWJ
CollinsJJ
2005 Stochasticity in gene expression: from theories to phenotypes. Nat Rev Genet 6 451 464
46. KarlebachG
ShamirR
2008 Modelling and analysis of gene regulatory networks. Nat Rev Mol Cell Biol 9 770 780
47. LarsonDR
SingerRH
ZenklusenD
2009 A single molecule view of gene expression. Trends Cell Biol 19 630 637
48. HillierLW
ReinkeV
GreenP
HirstM
MarraMA
2009 Massively parallel sequencing of the polyadenylated transcriptome of C. elegans. Genome Res 19 657 666
49. Consortium CeS 1998 Genome sequence of the nematode C. elegans: a platform for investigating biology. Science 282 2012 2018
50. LangmeadB
TrapnellC
PopM
SalzbergSL
2009 Ultrafast and memory-efficient alignment of short DNA sequences to the human genome. Genome Biol 10 R25
51. SteinLD
MungallC
ShuS
CaudyM
MangoneM
2002 The generic genome browser: a building block for a model organism system database. Genome Res 12 1599 1610
52. BrownSD
HuangJ
Van der PloegLH
1992 The promoter for the procyclic acidic repetitive protein (PARP) genes of Trypanosoma brucei shares features with RNA polymerase I promoters. Mol Cell Biol 12 2644 2652
53. PaysE
CoqueletH
TebabiP
PaysA
JefferiesD
1990 Trypanosoma brucei: constitutive activity of the VSG and procyclin gene promoters. EMBO J 9 3145 3151
54. BendtsenJD
NielsenH
von HeijneG
BrunakS
2004 Improved prediction of signal peptides: SignalP 3.0. J Mol Biol 340 783 795
Štítky
Hygiena a epidemiológia Infekčné lekárstvo LaboratóriumČlánok vyšiel v časopise
PLOS Pathogens
2010 Číslo 9
- Parazitičtí červi v terapii Crohnovy choroby a dalších zánětlivých autoimunitních onemocnění
- Očkování proti virové hemoragické horečce Ebola experimentální vakcínou rVSVDG-ZEBOV-GP
- Koronavirus hýbe světem: Víte jak se chránit a jak postupovat v případě podezření?
Najčítanejšie v tomto čísle
- Structure of the Extracellular Portion of CD46 Provides Insights into Its Interactions with Complement Proteins and Pathogens
- The Length of Vesicular Stomatitis Virus Particles Dictates a Need for Actin Assembly during Clathrin-Dependent Endocytosis
- Inhibition of TIR Domain Signaling by TcpC: MyD88-Dependent and Independent Effects on Virulence
- Cellular Entry of Ebola Virus Involves Uptake by a Macropinocytosis-Like Mechanism and Subsequent Trafficking through Early and Late Endosomes