Nucleotide sequence of the coat protein coding region of tulip breaking virus

Virus Genes ◽  
1994 ◽  
Vol 8 (2) ◽  
pp. 165-167 ◽  
Author(s):  
Kazuyuki Ohira ◽  
Shigetou Namba ◽  
Masamichi Miyagawa ◽  
Takaaki Kusumi ◽  
Tsuneo Tsuchizaki
Keyword(s):  
Nucleotide Sequence ◽  
Coat Protein ◽  
Coding Region ◽  
Protein Coding ◽  
Tulip Breaking Virus

Nucleotide sequence of the coat protein coding region of the potyvirus tobacco vein-banding mosaic virus

1994 ◽  
Vol 138 (1-2) ◽  
pp. 17-25 ◽  
Author(s):  
B. -Y. Chang ◽  
C. R. Huang ◽  
S. -D. Yeh ◽  
J. -K. Chiang ◽  
L. -M. Hung ◽  
...  
Keyword(s):  
Nucleotide Sequence ◽  
Coat Protein ◽  
Mosaic Virus ◽  
Coding Region ◽  
Protein Coding

Sequence diversity in the coat protein coding region of the genome RNA of Johnsongrass mosaic virus in Australia

2004 ◽  
Vol 149 (8) ◽  
Author(s):  
H. K. C. Laidlaw ◽  
D. M. Persley ◽  
C. K. Pallaghy ◽  
I. D. Godwin
Keyword(s):  
Coat Protein ◽  
Mosaic Virus ◽  
Sequence Diversity ◽  
Coding Region ◽  
Protein Coding

scholarly journals Nucleotide Sequence of the Coat Protein Gene of the Malaysian Passiflora Virus and its 3’ Non-Coding Region

2009 ◽  
Vol 6 (9) ◽  
pp. 1633-1636 ◽  
Author(s):  
Norzihan Abdullah ◽  
Ismanizan Ismail ◽  
Vilasini Pillai ◽  
Ruslan Abdullah ◽  
Shaiful Adzni Shar
Keyword(s):  
Nucleotide Sequence ◽  
Coat Protein ◽  
Coat Protein Gene ◽  
Protein Gene ◽  
Coding Region

scholarly journals Cymbidium Ringspot Tombusvirus Coat Protein Coding Sequence Acts as an Avirulent RNA

2001 ◽  
Vol 75 (5) ◽  
pp. 2411-2420 ◽  
Author(s):  
György Szittya ◽  
József Burgyán
Keyword(s):  
Coat Protein ◽  
Datura Stramonium ◽  
Defense Responses ◽  
Hypersensitive Reaction ◽  
Coding Region ◽  
Resistance Response ◽  
Protein Coding ◽  
Specific Receptors ◽  
Avirulent Genes ◽  
Pepper Isolate

ABSTRACT Avirulent genes either directly or indirectly produce elicitors that are recognized by specific receptors of plant resistance genes, leading to the induction of host defense responses such as hypersensitive reaction (HR). HR is characterized by the development of a necrotic lesion at the site of infection which results in confinement of the invader to this area. Artificial chimeras and mutants of cymbidium ringspot (CymRSV) and the pepper isolate of tomato bushy stunt (TBSV-P) tombusviruses were used to determine viral factors involved in the HR resistance phenotype of Datura stramonium upon infection with CymRSV. A series of constructs carrying deletions and frameshifts of the CymRSV coat protein (CP) undoubtedly clarified that an 860-nucleotide (nt)-long RNA sequence in the CymRSV CP coding region (between nt 2666 and 3526) is the elicitor of a very rapid HR-like response of D. stramonium which limits the virus spread. This finding provides the first evidence that an untranslatable RNA can trigger an HR-like resistance response in virus-infected plants. The effectiveness of the resistance response might indicate that other nonhost resistance could also be due to RNA-mediated HR. It is an appealing explanation that RNA-mediated HR has evolved as an alternative defense strategy against RNA viruses.

scholarly journals The complete sequence of the mouse skeletal alpha-actin gene reveals several conserved and inverted repeat sequences outside of the protein-coding region.

1986 ◽  
Vol 6 (1) ◽  
pp. 15-25 ◽  
Author(s):  
M C Hu ◽  
S B Sharp ◽  
N Davidson
Keyword(s):  
Amino Acids ◽  
Nucleotide Sequence ◽  
Inverted Repeat ◽  
Actin Gene ◽  
Coding Region ◽  
Specific Expression ◽  
Protein Coding ◽  
Repeat Sequences ◽  
Actin Genes ◽  
Alpha Actin

The complete nucleotide sequence of a genomic clone encoding the mouse skeletal alpha-actin gene has been determined. This single-copy gene codes for a protein identical in primary sequence to the rabbit skeletal alpha-actin. It has a large intron in the 5'-untranslated region 12 nucleotides upstream from the initiator ATG and five small introns in the coding region at codons specifying amino acids 41/42, 150, 204, 267, and 327/328. These intron positions are identical to those for the corresponding genes of chickens and rats. Similar to other skeletal alpha-actin genes, the nucleotide sequence codes for two amino acids, Met-Cys, preceding the known N-terminal Asp of the mature protein. Comparison of the nucleotide sequences of rat, mouse, chicken, and human skeletal muscle alpha-actin genes reveals conserved sequences (some not previously noted) outside of the protein-coding region. Furthermore, several inverted repeat sequences, partially within these conserved regions, have been identified. These sequences are not present in the vertebrate cytoskeletal beta-actin genes. The strong conservation of the inverted repeat sequences suggests that they may have a role in the tissue-specific expression of skeletal alpha-actin genes.

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