Avocado sunblotch viroid: primary sequence and proposed secondary structure

doi:10.1093/nar/9.23.6527

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Nucleic Acids Research, 1981, Vol. 9, No. 23 6527-6537
© 1981

MOLECULAR BIOLOGY

Avocado sunblotch viroid: primary sequence and proposed secondary structure

Robert H. Symons

Department of Biochemistry, University of Adelaide Adelaide, South Australia 5001

Received October 13, 1981. The sequence of the 247 nucleotide residues of the single strandcircular RNA of avocado sunblotch viroid (ASBV) was determinedusing partial enzymic cleavage methods on overlapping viroidfragments obtained by partial ribonuclease digestion followedby ³²p-labelling in vitro at their 5'-ends. ASBV is much smallerthan potato spindle tuber viroid (PSTV; 359 residues) and chrysanthemumstunt viroid (CSV; 356 residues). A secondary structure modelfor ASBV is proposed and contains 67% of its residues base paired.In contrast to the extensive (69%) sequence homology of CSVwith PSTV, only 18% of the ASBV sequence is homologous to PSTVand CSV. There are eight potential polypeptide translation productswith chain lengths from 4 to 63 amino acid residues coded forby the plus (infectious) strand and four potential translationproducts (2 to 60 residues) coded for by the minus strand. Animproved method is described for the synthesis of ${gamma}$ -³²p-ATP ofhigh specific activity.

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