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model_file_description.txt
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model_file_description.txt
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model_type # 0, single-end, no quality score; 1, single-end, quality score; 2, paired-end, no quality score; 3, paired-end, quality score
forward_prob # The probability of generating a read from forward strand
# Fragment length distribution or read length distribution (if reads are single-end reads and no fragment length distribution parameters are provided)
lower_bound upper_bound span # Fragment/read length should be in the range of (lower_bound, upper_bound] and span = upper_bound - lower_bound
prob_1 prob_2 ... prob_span # This line contains span probabilities separated by a single space. prob_i is the probability of generating a length of (lower_bound + i)
[
# Read length distribution, this section is optional for single-end reads model, the "[" and "]" suggest this section is optional.
has_optional_length_dist # This line only appear if model_type < 2. 0 stands no optional length distribution for that the previous section already defines the read length distribution, 1 stands for having this optional read length distribution. If has_optional_length_dist = 0, the next two lines will not appear
lower_bound upper_bound span # Fragment/read length should be in the range of (lower_bound, upper_bound] and span = upper_bound - lower_bound
prob_1 prob_2 ... prob_span # This line contains span probabilities separated by a single space. prob_i is the probability of generating a length of (lower_bound + i)
]
# Read start position distribution
estimate_RSPD # 0 means that RSEM assumes a uniform read generating distribution across a transcript, 1 means that RSEM estimated a RSPD from data
number_of_bins # number of bins used for estimating RSPD, please refer to Li, B., Ruotti, V., Stewart, R. M., Thomson, J. A., Dewey, C. N. (2010). RNA-Seq gene expression estimation with read mapping uncertainty. Bioinformatics, 26(4), 493-500. for more details
bin_prob_1 bin_prob_2 ... bin_prob_number_of_bins # number_of_bins single space separated numbers representing the probabilities of starting a read from each bin
[
# Quality score distribution, only presented if model_type == 1 or 3. Quality scores are generated according to a first order Markov model
# Quality scores are numbered from 0 internally, thus if prhed+33 quality score is used in the data, then i corresponds to phred score (i+33)
size # total number of quality scores modeled
p_init_0 p_init_1 ... p_init_(size-1) # size real-valued, single space separated numbers representing the initial probabilities of each state (quality score)
p_trans_0,0 ... p_trans_0,(size-1)
...
p_trans_(size-1),0 ... p_trans_(size-1),(size-1) # size times size matrix representing the transition matrix for the Morkov chain
]
[
# Sequencing error model for quality scores, only presented if model_type == 1 or 3
size ncodes # size is the total number of quality scores and ncodes is the number of different bases (ncodes = 5, 0: A; 1: C; 2: G; 3: T; 4: N)
# In the following, RSEM gives size blocks. The i th block represents the sequencing error model for quality score i. Blocks are separated by single blank lines
...
p_i,0,0 p_i,0,1 p_i,0,2 p_i,0,3 p_i,0,4
...
p_i,4,0 p_i,4,1 p_i,4,2 p_i,4,3 p_i,4,4 # The i th block contains a ncodes times ncodes matrix. Each cell (j,k) gives the probability of generating a base k given the quality score is i and the reference base is j
...
]
[
# Model for generating a noise read based on quality scores. Only presented if model_type == 1 or 3
size ncodes # the same as sequencing error model for quality score
p_0,0 p_0,1 p_0,2 p_0,3 p_0,4
...
p_(size-1),0 p_(size-1),1 p_(size-1),2 p_(size-1),3 p_(size-1),4 # A size times ncode matrix giving the probability of generating a base in a noise read given a quality score
]
[
# Sequencing error model without quality score, only presented if model_type == 0 or 2. It records the probability of generating a base k at position i given the corresponding reference base is j. Positions are numbered from 0
profile_length ncodes # profile_length should be equal to the maximum length of any read in the data set
# There will be profile_length blocks separated by single blank lines
...
p_i,0,0 p_i,0,1 p_i,0,2 p_i,0,3 p_i,0,4
...
p_i,4,0 p_i,4,1 p_i,4,2 p_i,4,3 p_i,4,4 # The i th block contains a ncodes times ncodes matrix. Each cell (j,k) gives the probability of generating a base k at position i given the reference base is j
...
]
[
# Model for generating a noise read without quality scores. Only presented if model_type == 0 or 2
ncodes # ncodes = 5
p_0 p_1 p_2 p_3 p_4 # probabilities of generating a particular base for the noise read, all positions use the same base generating probabilities
]
[
# Some other numbers, which has nothing to do with simulation
]