Batravirus (taxid:3044671)

(formerly named Batrachovirus)

VIRION

image

Enveloped, spherical to pleomorphic, 150-200 nm in diameter, T=16 icosahedral symmetry. Capsid consists of 162 capsomers. Glycoproteins complexes are embed in the lipid envelope.

GENOME

Monopartite, linear, extensively methylated dsDNA genome of 220-231 kb. The genome contains terminal and internal reiterated sequences.

GENE EXPRESSION

Each viral transcript usually encodes a single protein and has a promoter/regulatory sequence, a TATA box, a transcription initiation site, a 5' leader sequence of 30-300 bp (not translated), a 3' non-translated sequence of 10-30 bp, and a poly A signal. There are only few spliced genes. Some of the expressed ORFs are antisense to each other. The three exons of the gene encoding the putative ATPase subunit of terminase are not specified by the same DNA strand.

ENZYMES

REPLICATION

NUCLEAR

Lytic replication:

  1. Attachment of the viral glycoproteins to host receptors mediates endocytosis of the virus into the host cell.
  2. Entry into host cell is still unclear and may depend on the host cell type, i.e. endocytosis versus fusion at the plasma membrane.
  3. The capsid is transported to the nuclear pore where the viral DNA is released into the nucleus.
  4. Transcription of immediate early genes which promote transcription of early genes.
  5. Transcription of early viral mRNA by host polymerase II, transport into the cytoplasm and translation into early proteins.
  6. Early proteins are involved in replication of the viral DNA and are transported back into the nucleus.
  7. Synthesis of multiple copies of viral DNA by the viral DNA-dependent DNA polymerase.
  8. Transcription of late mRNAs by host polymerase II, transport into the cytoplasm and translation into late proteins.
  9. Late proteins are structural or core proteins and are transported back into the nucleus.
  10. Assembly of the virus in nuclear viral factories and budding through the inner lamella of the nuclear membrane which has been modified by the insertion of herpes glycoproteins, throughout the Golgi and final release at the plasma membrane.

Latent replication : replication of circular viral episome in tandem with the host cell DNA using the host cell replication machinery.

These structures were created with the help of Colabfold by Jason Nomburg, Nathan Price and Jennifer Doudna (ModelArchive).

Ranid herpesvirus 2 taxid:389214

Protein ModelArchive
Cytosine-specific methyltransferase (EC 2.1.1.37) ma-jd-viral-43119
DNA polymerase (EC 2.7.7.7) ma-jd-viral-17255
ORF1 ma-jd-viral-30651
ORF10 ma-jd-viral-48068
ORF100 ma-jd-viral-24441
ORF101 ma-jd-viral-57878
ORF102 ma-jd-viral-46423
ORF103 ma-jd-viral-34549
ORF104 ma-jd-viral-30229
ORF105 ma-jd-viral-32815
ORF107 ma-jd-viral-41660
ORF108 ma-jd-viral-64673
ORF109 ma-jd-viral-40091
ORF11 ma-jd-viral-31336
ORF111 ma-jd-viral-51809
ORF112 ma-jd-viral-33612
ORF113 ma-jd-viral-11900
ORF114 ma-jd-viral-39786
ORF115 ma-jd-viral-30160
ORF116 ma-jd-viral-49670
ORF117 ma-jd-viral-03070
ORF118 ma-jd-viral-10933
ORF119 ma-jd-viral-41631
ORF12 ma-jd-viral-36612
ORF121 ma-jd-viral-40368
ORF122 ma-jd-viral-42324
ORF125 ma-jd-viral-34766
ORF127 ma-jd-viral-46687
ORF128 ma-jd-viral-04250
ORF129 ma-jd-viral-23162
ORF13 ma-jd-viral-08563
ORF130 ma-jd-viral-61996
ORF131 ma-jd-viral-42428
ORF132 ma-jd-viral-30976
ORF133 ma-jd-viral-49472
ORF134 ma-jd-viral-40524
ORF135 ma-jd-viral-30790
ORF136 ma-jd-viral-64671
ORF137 ma-jd-viral-57183
ORF138 ma-jd-viral-66618
ORF139 ma-jd-viral-60172
ORF14 ma-jd-viral-08562
ORF140 ma-jd-viral-17712
ORF141 ma-jd-viral-17713
ORF143 ma-jd-viral-44542
ORF144 ma-jd-viral-38608
ORF145 ma-jd-viral-46199
ORF146 ma-jd-viral-62123
ORF147 ma-jd-viral-47268
ORF15 ma-jd-viral-08569
ORF16 ma-jd-viral-08565
ORF17 ma-jd-viral-08564
ORF18 ma-jd-viral-08561
ORF19 ma-jd-viral-08560
ORF2 ma-jd-viral-32302
ORF20 ma-jd-viral-08559
ORF21 ma-jd-viral-08558
ORF22 ma-jd-viral-08568
ORF23 ma-jd-viral-08570
ORF24 ma-jd-viral-08567
ORF25 ma-jd-viral-08566
ORF26 ma-jd-viral-60191
ORF27 ma-jd-viral-35450
ORF28 ma-jd-viral-37043
ORF29 ma-jd-viral-51107
ORF3 ma-jd-viral-45079
ORF30 ma-jd-viral-16429
ORF31 ma-jd-viral-16427
ORF32 ma-jd-viral-55158
ORF33 ma-jd-viral-47830
ORF34 ma-jd-viral-17707
ORF35 ma-jd-viral-17709
ORF36 ma-jd-viral-17711
ORF37 ma-jd-viral-17710
ORF38 ma-jd-viral-50263
ORF39 ma-jd-viral-49691
ORF4 ma-jd-viral-51660
ORF40 ma-jd-viral-53048
ORF41 ma-jd-viral-37647
ORF42 ma-jd-viral-60698
ORF43 ma-jd-viral-67150
ORF44 ma-jd-viral-35935
ORF45 ma-jd-viral-45034
ORF46 ma-jd-viral-45033
ORF47 ma-jd-viral-66948
ORF48 ma-jd-viral-51640
ORF49 ma-jd-viral-32802
ORF5 ma-jd-viral-35857
ORF50 ma-jd-viral-42299
ORF51 ma-jd-viral-11026
ORF52 ma-jd-viral-11024
ORF53 ma-jd-viral-11023
ORF54 ma-jd-viral-38322
ORF55 ma-jd-viral-11022
ORF56 ma-jd-viral-11028
ORF57 ma-jd-viral-11025
ORF58 ma-jd-viral-11027
ORF59 ma-jd-viral-41358
ORF6 ma-jd-viral-62735
ORF60 ma-jd-viral-11029
ORF61 ma-jd-viral-35455
ORF62 ma-jd-viral-60077
ORF63 ma-jd-viral-50431
ORF64 ma-jd-viral-65155
ORF65 ma-jd-viral-46375
ORF66 ma-jd-viral-51161
ORF67 ma-jd-viral-25059
ORF68 ma-jd-viral-06476
ORF69 ma-jd-viral-06904
ORF7 ma-jd-viral-51865
ORF70 ma-jd-viral-50016
ORF71 ma-jd-viral-42210
ORF72 ma-jd-viral-41567
ORF73 ma-jd-viral-33735
ORF74 ma-jd-viral-49494
ORF75 ma-jd-viral-04245
ORF76 ma-jd-viral-33889
ORF77 ma-jd-viral-61683
ORF78 ma-jd-viral-55629
ORF79 ma-jd-viral-29954
ORF8 ma-jd-viral-57847
ORF80 ma-jd-viral-38536
ORF81 ma-jd-viral-48167
ORF82 ma-jd-viral-39671
ORF83 ma-jd-viral-30744
ORF84 ma-jd-viral-37162
ORF85 ma-jd-viral-49815
ORF86 ma-jd-viral-63725
ORF87 ma-jd-viral-45814
ORF88 ma-jd-viral-51739
ORF89 ma-jd-viral-49690
ORF9 ma-jd-viral-36585
ORF90 ma-jd-viral-29559
ORF91 ma-jd-viral-33899
ORF92 ma-jd-viral-52889
ORF93 ma-jd-viral-57255
ORF94 ma-jd-viral-54461
ORF95 ma-jd-viral-63071
ORF96 ma-jd-viral-58709
ORF97 ma-jd-viral-36587
ORF98 ma-jd-viral-48892
ORF99 ma-jd-viral-24442
dUTP diphosphatase (EC 3.6.1.23) ma-jd-viral-04316
mitogen-activated protein kinase kinase (EC 2.7.12.2) ma-jd-viral-35789