HUMAN GENOME DATABASES
- Details
- Hits: 47289
The author is associated with orderwriters.com which, is a global custom writing company. If you would like help in custom writing or term paper writing, research paper and essays, you can visit orderwriters.com.
Background
Transmembrane protein (TMEM132D) has an alternative symbol of KIAA1944 and an alternative name of Mature OligodendrocyteTransmembrane Protein (MOLT). Its approved gene symbol is TMEM132D with cytogenetic location of 12q24.33 to chromosome 12q24.3. It is moderately expressed in adult and fetal brain only with highest expression in caudate neucleus and lowest expression in amygdala, corpus callosum, hippocampus, substantianigra, subthalamicneucleus and thalamus. As expressed by Nomoto et al (2003) in OMIM webpage, transmembrane protein was found to have molecular mass of about 130kD and N-terminal hydrophobic signal peptide, 7 predicted N-glycosylation sites, 2 predicted O-glycosylation sites, phosphorylation sites and C-terminal transmembrane domain. It shares in rat homologs 83.4% and 83.2% amino acid identities in mouse homologs. The TMEM132D gene contains 9exons spanning 850kb.
TMEM132D is a polytopicprotein that aggregate and aggregate and precipitate in water. They can be extracted by use of non-polar solvents or detergents or better denaturing agents for some. Transmembrane protein spans from one side of a membrane to the other side where it is permanently attached by special membrane lipids known as annular lipid shells. They are capable of permitting or denying transport of specific substances across the biological membrane getting in and out of the cells by a folding up or bending technique.To explore the effects of TMEM132D gene, it is important to trace its associations and traits due to its fundamental roles. Mala cards website revealed 5 hits associated with this gene which includes leukemia, panic disorder, asthma and obesity. NCBI and Ensembl were used to gather information about the gene such as location, mutations and genetic disorders associated with it.
Chromosomal Map Position of TMEM132D
The chromosomal map position of Transmembrane Protein (TMEM132D) from NCBI website can be accessed through selecting option “Genomes and Maps” followed by “Tools” then “Map Viewer” options. Alternatively, from the web interface, straight away select option “Tools” then “Map Viewer”. On the “Map Viewer” interface, on search field on the top left corner, select “Homo Sapiens” option then search for the gene code by entering on the box labeled “for”. An interface with chromosomes will then appear. At the filter on top, “Search for” TMEM132D and on the “Assembly” field select Primary Assembly to establish the chromosome the Transmembrane Protein is located. The search highlights chromosome 12 with a red line with 33 hits. Select the highlighted chromosome (12). “Map Viewer” interface opens and below appears the map summary. (NCBI)
Summary of Maps: |
|||
|
|||
|
|||
Total RNA alignments On Chromosome: 474930 |
|||
RNA alignments Labeled: 20 Total RNA alignments in Region: 218 |
|||
|
|||
|
|||
Total RefSeq Transcripts On Chromosome: 2511 |
|||
RefSeq Transcripts Labeled: 6 Total RefSeq Transcripts in Region: 6 |
|||
|
|||
|
|||
Total Genes On Chromosome: 1935 |
|||
Genes Labeled: 7 Total Genes in Region: 7 |
On the Ensemble browser, search for TMEM132D is entered in the search engine. Restrict the search to “human” and “gene” this can be done by directly selecting “TMEM132D (Human Gene). And the summary is as follows:
Name:TMEM132D (HGNC Symbol)
CCDS:This gene is a member of the Human CCDS set: CCDS9266
UniprotKB:This gene has proteins that correspond to the following Uniprot identifiers: Q14C87
RefSeq:Overlapping RefSeq Gene ID 121256 matches and has similar biotype of protein coding. (4)
Ensembl version:ENSG00000151952.11
GRCh37 assembly:This gene maps to 129,556,270-130,388,211 in GRCh37 coordinates.View this locus in the GRCh37 archive: ENSG00000151952
Gene type:Known protein coding
Prediction Method:Annotation for this gene includes both automatic annotation from Ensembland Havana manual curation.(4)
Alternative genes:This gene corresponds to the following database identifiers:Havana gene: OTTHUMG00000168400
These browsers evidently have different ways of displaying information on chromosomal map position with different characteristics. Though the information displayed is quite similar, there are notable differences. The NCBI browser display information about the gene in terms mapping and positioning as compared to Ensembl browser that gives information on transcript variants. NCBI is capable of displaying the variants but through engaging other procedures. Getting approximate size of the gene can be done easily through NCBI website and getting the transcript variants is easier through Ensembl browser which organizes the information in more specific and organized way.It is more possible to get useful links when using Ensembl through the selection of every transcript variant independently which brings expanded information that leads to anothe. All of the browsers are integrated to each other in gathering information about the genes. Moreover, the browsers are characterised by their different way in gathering information for example, to find out the approximate size of the gene can be easy found from NCBI easily compared with Ensembl, though they are integrated to each other in gathering information about the gene.
2. Exon / intron structure of TMEM132D gene.
Exon and intron structure of TMEM132D gene from NCBI website is found through selecting Gene box followed by filter button to restrict the search to the gene TMEM132D, which brings hits. After that the first option with gene ID 121256 is selected.Genomic regions, transcripts, and products are selected and then GenBank that reveals the displayed region of the chromosome. From NCBI Reference Sequences “mRNA and proteins” is chosen and that shows the transcript variants of the gene. From the transcript it is possible to get the following:Location: 12q24.33 Exon count: 9 Intron : 8
In Ensembl browser, same procedure of locating chromosomal mapping position is followed. Of the three revealed transcript variants, the first one which is the longestis selected and the following is obtained.
StatisticsExons: 9 Coding exons: 9 Transcript length: 5,776 bps Translation length: 1,099 residues
Comparing between Ensembl and NCBI gene browsers each of them is characterised and specified in the way of searching and displaying information. NCBI browser provides less information with regards to exon and intron structure as compared to Enseml browser. The arrangement of the exon and intron structures is different between both browsers.Ensembl browser gives more specific and independent and gives more access to information. There is also integration between Ensembl and NCBI web browser so that they are complementary to each other’s in handling information.
3. The Rare homozygous SNPs for the patient.
NCBI and Ensembl browsers are used to investigate the rare homozygous Single Nucleotide Polymorphism for the patient. NCBIbrowser straight forward shows the location of thehits of the rarehomozygous, which are allocated in the intron region as follows
rs12819591is located in the intron region of NM_133448.2.
rs7960253 is located in the intron region of NM_133448.2.
The gene SNPs were identified by clicking on the variation table under “Genetic variations” in the Gene based display on the left column in the Map viewer page. An output table showing the short nucleotide polymorphism of the gene was generated.
Number of variant consequences |
Type |
Description |
||
0 |
- |
|
Transcript ablation |
A feature ablation whereby the deleted region includes a transcript feature (SO:0001893) |
2 |
|
Splice donor variant |
A splice variant that changes the 2 base region at the 5' end of an intron (SO:0001575) |
|
0 |
- |
|
Splice acceptor variant |
A splice variant that changes the 2 base region at the 3' end of an intron (SO:0001574) |
12 |
|
Stop gained |
A sequence variant whereby at least one base of a codon is changed, resulting in a premature stop codon, leading to a shortened transcript (SO:0001587) |
|
5 |
|
Frameshift variant |
A sequence variant which causes a disruption of the translational reading frame, because the number of nucleotides inserted or deleted is not a multiple of three (SO:0001589) |
|
0 |
- |
|
Stop lost |
A sequence variant where at least one base of the terminator codon (stop) is changed, resulting in an elongated transcript (SO:0001578) |
0 |
- |
|
Initiator codon variant |
A codon variant that changes at least one base of the first codon of a transcript (SO:0001582) |
0 |
- |
|
Transcript amplification |
A feature amplification of a region containing a transcript (SO:0001889) |
0 |
- |
|
Inframe insertion |
An inframe non synonymous variant that inserts bases into in the coding sequence (SO:0001821) |
1 |
|
Inframe deletion |
An inframe non synonymous variant that deletes bases from the coding sequence (SO:0001822) |
|
300 |
|
Missense variant |
A sequence variant, that changes one or more bases, resulting in a different amino acid sequence but where the length is preserved (SO:0001583) |
|
8 |
|
Splice region variant |
A sequence variant in which a change has occurred within the region of the splice site, either within 1-3 bases of the exon or 3-8 bases of the intron (SO:0001630) |
|
0 |
- |
|
Incomplete terminal codon variant |
A sequence variant where at least one base of the final codon of an incompletely annotated transcript is changed (SO:0001626) |
157 |
|
Synonymous variant |
A sequence variant where there is no resulting change to the encoded amino acid (SO:0001819) |
|
1 |
|
Stop retained variant |
A sequence variant where at least one base in the terminator codon is changed, but the terminator remains (SO:0001567) |
|
0 |
- |
|
Coding sequence variant |
A sequence variant that changes the coding sequence (SO:0001580) |
0 |
- |
|
Mature miRNA variant |
A transcript variant located with the sequence of the mature miRNA (SO:0001620) |
7 |
|
5 prime UTR variant |
A UTR variant of the 5' UTR (SO:0001623) |
|
69 |
|
3 prime UTR variant |
A UTR variant of the 3' UTR (SO:0001624) |
|
0 |
- |
|
Non coding exon variant |
A sequence variant that changes non-coding exon sequence (SO:0001792) |
21062 |
|
Intron variant |
A transcript variant occurring within an intron (SO:0001627) (WARNING: table may not load for this number of variants!) View list in BioMart |
|
0 |
- |
|
NMD transcript variant |
A variant in a transcript that is the target of NMD (SO:0001621) |
0 |
- |
|
NC transcript variant |
A transcript variant of a non coding RNA (SO:0001619) |
85 |
|
Upstream gene variant |
A sequence variant located 5' of a gene (SO:0001631) |
|
101 |
|
Downstream gene variant |
A sequence variant located 3' of a gene (SO:0001632) |
|
21802 |
ALL |
All variations (WARNING: table may not load for this number of variants!) View list in BioMart |
Ensembl browser is able to provide more information represented as follows
For rs12819591 SNP Original sourceVariants (including SNPs and indels) AllelesC/T | Ancestral: T | Ambiguity code: Y | MAF: 0.10 (C)LocationChromosome 12:129535078 (forward strand)
For rs7960253Original sourceVariants (including SNPs and indels) AllelesC/T | Ancestral: C | Ambiguity code: Y | MAF: 0.05 (T)LocationChromosome 12:129597445 (forward strand)
The SNPs are located in the intron regions of the gene therefor they don’t have a major effect in the gene protein products. They are not changing the coding region for the gene and have no potential effect of the final product of the gene. Ensembl and NCBI as browsers differently display the number of the SNPs in the rare homozygous. NCBI browser is specific on the number of SNPs in the coding region and the whole gene, whileEnsembl page configuration which dictates the size of the region displayed which affectthe number of the SNPs. Ensembl browser displays the SNPs in organised format with their source.
4. Single nucleotide polymorphisms (SNPs) within the gene
A search run through the NCBI website obtained the SNPs within the gene. The information was filtered for human gene.
# |
|
rs # |
Context |
Gene |
Location |
P-value |
|
|
|
|
1 |
|
intron |
|
|
|
|||||
2 |
|
intron |
|
|
|
|||||
3 |
|
intron |
|
|
|
|||||
4 |
|
intron |
|
|
|
|||||
5 |
|
intron |
|
|
|
|||||
6 |
|
intron |
|
|
|
|||||
7 |
|
intron |
|
|
|
|||||
8 |
|
intron |
|
|
|
|||||
9 |
|
intron |
|
|
|
|||||
10 |
|
intron |
|
|
|
|||||
11 |
|
intron |
|
|
|
|||||
12 |
|
intron |
|
|
|
|||||
13 |
|
intron |
|
|
|
|||||
14 |
|
intron |
|
|
|
|||||
15 |
|
intron |
|
|
|
|||||
16 |
|
intron |
|
|
|
|||||
17 |
|
intron |
|
|
|
|||||
18 |
|
intron |
|
|
|
|||||
19 |
|
intron |
|
|
|
NCBI browser display the information straight forward, and the number of the SNPs can be seen in both coding region and whole gene area. There are different numbers of variations for each rare homozygosis and also the number of the assay chips is different in the browsers used.
5. PCR primers for the rare homozygous SNPs using a primer design program
The designing of PCR is different in both of NCBI and Ensembl browsers. The principle of designing of the primers is mainly based on copying the area of the sequence round the SNPs( 300-600 bases in long ) and pasted in the primer. PCR designing performed for the three rare homozygous using both NCBI and Ensembl browsers, showed differences between NCBI and Ensembl with regards to the PCR designing, in NCBI browser the designing result shows left primer, right primer, the product size and statistics.On the other hand, when using Ensembl browser SNPs highlighted in red letter as it was visualized through the flanking sequence. It is possible to configure the page that gives an option for expanding or limiting the displayed regions of the SNPs. Ensembl browser is different from NCBI browser in the page configuration option. The result of designing the PCR from the surrounding sequence in Ensembl browser depends on the size of selected region according to the page configuration.
From NCBI web browser the surrounded sequence of rs12819591rare homozygous is obtained. The sequence was copied and pasted in the primer3. Appendix 1 shows the designresult.
From NCBI web browser the surrounded sequence of rs7960253 rare homozygous is obtained. The sequence was copied and pasted to primer3. Appendix 2 shows the design result.
Reference.
- "OMIM http://www.omim.org/120252 10 Sep. 2014..
- Mala Cards The Human Malady Compendium 2013.
- Committee HHGN. Gene Symbol Report 2013 [31/07/2013]. Available from: http://www.genenames.org/data/hgnc_data.php?hgnc_id=221510 Sep. 2014.
- Enbeslhttp://asia.ensembl.org/index.html
- NCBI http://www.ncbi.nlm.nih.gov/
Appendix 1
3- No mispriming library specified
4- Using 1-based sequence positions
5- WARNING: Unrecognized base in input sequence
6-
7- OLIGO startlentmgc% any 3'seq
8- LEFT PRIMER 208 21 59.25 42.86 7.00 3.00 CAGGCCCTGAAGTGTTAAAAA
9- RIGHT PRIMER 368 20 60.18 45.00 3.00 0.00 TTTGCTTCTGGGGAATCTTG
10- SEQUENCE SIZE: 601
11- INCLUDED REGION SIZE: 601
12-
13- PRODUCT SIZE: 161, PAIR ANY COMPL: 6.00, PAIR 3' COMPL: 1.00
14- TARGETS (start, len)*: 301,1
15-
16- 1 TTTTGTTTCCAAATATTTTCTATCCACAGTTGGTTGGATCCACAGACACAGAACCCACAG
17-
18-
19- 61 ACACAGAGGGCTGACTGTATACAATCAAGATAGGAGAGGACATTTTTGCTGATCTCAGTG
20-
21-
22- 121 GGAGAGGTACTTAAACAAACAACAGTGATATACTCCTGTTTACTTTATTTGTACACATTG
23-
24-
25- 181 GTAACCAGAATGTCATAAATTATTCTTCAGGCCCTGAAGTGTTAAAAAAGTATTTATAAA
26- >>>>>>>>>>>>>>>>>>>>>
27-
28- 241 TAAAATAAAAACAACTTTCCTATAATGAACACCCCATACTTACATCAAACAGAGCTGTAG
29-
30-
31- 301 YGCTTACCAGCATGGTAAGTAAAATGATTATAAAGGTAAGTGTTCCATCAAGATTCCCCA
32- * <<<<<<<<<<<<
33-
34- 361 GAAGCAAATAACATTCACGGAGTACAAGTAGGACAGTCCCCTGAGACAGTAATATTGTCT
35- <<<<<<<<
36-
37- 421 CTGAATCCATCATATAAGCATGTTCCCTCAGGCAGTCCAAGGACTAAAATATCATTCCCC
38-
39-
40- 481 TAAGTGAAACATGAAAGAAATCCCTTTAAAAACAAAAATGTATAGTCAGGGAACCAAAAC
41-
42-
43- 541 ATTGTATTCACACTCTCACCTGCGTTTCAACCATAACATAGCATTTAGAAAGTGTAGGTA
44-
45-
46- 601 C
47-
48-
49- KEYS (in order of precedence):
50- ****** target
51- >>>>>> left primer
52- <<<<<< right primer
53-
54- ADDITIONAL OLIGOS
55- startlentmgc% any 3'seq
56-
57- 1 LEFT PRIMER 208 21 59.25 42.86 7.00 3.00 CAGGCCCTGAAGTGTTAAAAA
58- RIGHT PRIMER 365 20 59.63 50.00 4.00 2.00 GCTTCTGGGGAATCTTGATG
59- PRODUCT SIZE: 158, PAIR ANY COMPL: 6.00, PAIR 3' COMPL: 0.00
60-
61- 2 LEFT PRIMER 208 21 59.25 42.86 7.00 3.00 CAGGCCCTGAAGTGTTAAAAA
62- RIGHT PRIMER 362 20 60.39 45.00 4.00 0.00 TCTGGGGAATCTTGATGGAA
63- PRODUCT SIZE: 155, PAIR ANY COMPL: 4.00, PAIR 3' COMPL: 0.00
64-
65- 3 LEFT PRIMER 208 21 59.25 42.86 7.00 3.00 CAGGCCCTGAAGTGTTAAAAA
66- RIGHT PRIMER 363 20 60.39 45.00 4.00 0.00 TTCTGGGGAATCTTGATGGA
67- PRODUCT SIZE: 156, PAIR ANY COMPL: 5.00, PAIR 3' COMPL: 0.00
68-
69- 4 LEFT PRIMER 208 21 59.25 42.86 7.00 3.00 CAGGCCCTGAAGTGTTAAAAA
70- RIGHT PRIMER 364 20 59.48 50.00 4.00 0.00 CTTCTGGGGAATCTTGATGG
71- PRODUCT SIZE: 157, PAIR ANY COMPL: 6.00, PAIR 3' COMPL: 0.00
72-
73- Statistics
74- con too in in no tm tm high highhigh
75- sid many tar excl bad GC too too any 3' poly end
76- ered Ns get reg GC% clamp low high complcompl X stab ok
77- Left 2599 0 0 0 302 0 1376 284 48 8 11 19 551
78- Right 2632 0 0 0 73 0 1441 331 0 1 0 30 756
79- Pair Stats:
80- considered 2459, unacceptable product size 2449, ok 10
81- primer3 release 1.1.4
82-
83-
84- (primer3_results.cgi release 0.4.0)
Appendix 2
No mispriming library specified
Using 1-based sequence positions
WARNING: Unrecognized base in input sequence
OLIGO startlentmgc% any 3'seq
LEFT PRIMER 48 20 60.21 55.00 3.00 2.00 CCCACCTCTCTGCCATTCTA
RIGHT PRIMER 223 20 60.03 45.00 5.00 1.00 GTGAATTTCCCCCAACCTTT
SEQUENCE SIZE: 1001
INCLUDED REGION SIZE: 1001
PRODUCT SIZE: 176, PAIR ANY COMPL: 4.00, PAIR 3' COMPL: 1.00
1 ACCCAATCTCTTTCCTGGATAGCAGTATCTTCATTTTGCTTATATGACCCACCTCTCTGC
>>>>>>>>>>>>>
61 CATTCTATACCACCATGGTAGACTTGTAAGTCAAGAGTTTCTCCCTCCAACCCTGGACAA
>>>>>>>
121 AAGGTGGACACATGACCTAAGCCAGTCCAGCTGAAAGATTCTCTCTGGAATATAATCTTG
181 AACAAAGAGACACAGCAAATAAAAAAGGTTGGGGGAAATTCACCCAGCCTTGTGGCCCTG
<<<<<<<<<<<<<<<<<<<<
241 CTACAACTGTCTATTGCTTCCTTCTCTCTGGTTTGCAGGAATTAACACAGCTAACATTTC
301 TGAATCTGGTTCTCAGCCTTCCCTTTAGGCATACAAATATTCCCCATCCTCCCATCCAGT
361 CCCTTCTTGTTTAACGTAGCCTGAGTTATTTATGATCATTTCCAATTATATAACAAGGGG
421 AGGCTAAGATTCAGTGACTTCAAGAACAAGGAAGTGTATTTCCTCCTCCTGTGAACATCC
481 ATTGCTGGTAACCCAGGTTGYTGGGTGTCTCTGTTCCACTCAGTCATTTGGGGATCAAGG
541 CTGAAGGCATCTCTACTGTTTTTAATGTATAACTTCTAATGTCTCTGTGCTCATGACCAT
601 CCCAGCCAAGAGGAAGAGGGAAGAGCAGTAGACCAGAACAAGGGATTTCCTCTTAAGCAG
661 GTGAGGTGGGCACTGCATGCCCAAATTCACTCACCTCCCATTGGAAGGAGCCTAGTCTCA
721 TGGCCACACCTGACTGCAAGAGCAGCGAGTGCTGGGAAGTCAGTCTTTACCTGGACAGCC
781 GTATCCCCACTGTGACCCTGTCACTATAGTGGAAAGAGAGATGGATTTGGATGGAGGATT
841 TGCATCTCCCTCCACCACAACCACCAGGGGACTCCAAATGATGGGATGTGTCAGCCTCCT
901 AAAGTCTATAAATTTGAGTTCATTATCCAAAGCACTGTGTACAGAGACTTAGGCTGATGA
961 CAACATTGCCCCAAAGAGAAACTCCCTACTTACGCAATCTT
KEYS (in order of precedence):
>>>>>> left primer
<<<<<<right primer
ADDITIONAL OLIGOS
startlentmgc% any 3'seq
1 LEFT PRIMER 461 20 60.05 55.00 4.00 0.00 TCCTCCTCCTGTGAACATCC
RIGHT PRIMER 704 20 59.78 50.00 5.00 2.00 CCAATGGGAGGTGAGTGAAT
PRODUCT SIZE: 244, PAIR ANY COMPL: 5.00, PAIR 3' COMPL: 2.00
2 LEFT PRIMER 604 20 59.95 55.00 2.00 0.00 AGCCAAGAGGAAGAGGGAAG
RIGHT PRIMER 801 20 60.24 55.00 5.00 2.00 ACAGGGTCACAGTGGGGATA
PRODUCT SIZE: 198, PAIR ANY COMPL: 3.00, PAIR 3' COMPL: 0.00
3 LEFT PRIMER 604 20 59.95 55.00 2.00 0.00 AGCCAAGAGGAAGAGGGAAG
RIGHT PRIMER 800 20 60.24 60.00 5.00 2.00 CAGGGTCACAGTGGGGATAC
PRODUCT SIZE: 197, PAIR ANY COMPL: 3.00, PAIR 3' COMPL: 1.00
4 LEFT PRIMER 337 20 59.80 50.00 4.00 0.00 ATATTCCCCATCCTCCCATC
RIGHT PRIMER 554 20 60.10 50.00 3.00 3.00 AGAGATGCCTTCAGCCTTGA
PRODUCT SIZE: 218, PAIR ANY COMPL: 4.00, PAIR 3' COMPL: 2.00
Statistics
con too in in no tm tm high highhigh
sid many tar excl bad GC too too any 3' poly end
ered Ns get reg GC% clamp low high complcompl X stab ok
Left 7626 27 0 0 105 0 2835 2503 0 34 19 137 1965
Right 7677 27 0 0 115 0 2767 2602 0 4 22 134 2005
Pair Stats:
considered 4854, unacceptable product size 4827, high end compl 4, ok 23
primer3 release 1.1.4
(primer3_results.cgi release 0.4.0)
Appendix 3
Diagram 1
References
Barth L., Weinstein M., Jorgensen H. and Ferrao J. Antimicrobial Sensitivity Testing: A review of General Principles and Contemporary Practice. Clinical Infectious Diseases (2009) 49 (11) 1749-1755
Brock - Biology of Micro organismschp 26
Davis W. and Stout R. Disc Plate Method of Microbiological Antibiotic Assay - Factors Influencing Variability and Error. Applied Microbiology, Oct. 1971, p. 659-665 Vol. 22, No. 4.23
CLSI website http://clsi.org/edu/ accessed on (5th September 2015)
University of Melbourne Laboratory Techniques Manual