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A Sequence-Based Analysis of the Pointer Distribution of Stichotrichous Ciliates

Serghei Verlan, Artiom Alhazov, Ion Petre, A Sequence-Based Analysis of the Pointer Distribution of Stichotrichous Ciliates. Biosystems 101, 109–116, 2010.

Abstract:

Micronuclear genes in stichotrichous ciliates are broken into blocks separated by noncoding
sequences, sometimes with the blocks in a shuffled order, some even inverted. During
reproduction, all blocks are assembled in the correct order and orientation. This process is
possible due to the special structure of micronuclear genes: each coding block M ends with
a short nucleotide sequence (called pointer) that is repeated at the beginning of the coding
block that should follow M in the assembled gene. Many of the pointers have multiple
occurrences along both strands of the gene. This yields a very high number of pointer-
induced possible divisions into coding and noncoding blocks. We investigate the distribution
of pointers for all currently sequenced micronuclear ciliate genes with the goal of identifying
what distinguishes the real gene structure among all possible coding/noncoding divisions.
We find a sharp criterion in the average a/t-content of the noncoding blocks: the real division
has, in most cases, themaximumsuch content among all possible combinations. Even for
pointers as short as two nucleotides, the real division is one of very few with an average a/t-
content of its noncoding blocks over 80%. The separation is most clear when the loci of
pointers of up to four nucleotides (even three in the case of unscrambled genes) are fixed
(e.g., through a template-based recombination mechanism).

BibTeX entry:

@ARTICLE{jVeAlPe10a,
  title = {A Sequence-Based Analysis of the Pointer Distribution of Stichotrichous Ciliates},
  author = {Verlan, Serghei and Alhazov, Artiom and Petre, Ion},
  journal = {Biosystems},
  volume = {101},
  pages = {109–116},
  year = {2010},
}

Belongs to TUCS Research Unit(s): Computational Biomodeling Laboratory (Combio Lab)

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