Repbase Reports
2004, Volume 4, Issue 3
March 31, 2004
Copyright © 2001-2016 - Genetic Information Research Institute
ISSN# 1534-830X
Page 62

GYPSY35-I_AG

GYPSY35-I_AG is an internal portion of retrotransposon GYPSY35_AG - a consensus sequence.

Submitted:
31-Mar-2004 		Accepted:
31-Mar-2004
Key Words:
LTR retrotransposon; Gypsy clade; MDG3 lineage; 4-bp TSD gag; AP protease; Reverse Transcriptase; RNase-H; integrase GYPSY35_AG; GYPSY35-LTR_AG; GYPSY35-I_AG
Source:
consensus 		Organism:
Anopheles gambiae str. PEST 		Taxonomy:
Eukaryota; Metazoa; Arthropoda; Hexapoda; Insecta; Pterygota; Neoptera; Endopterygota; Diptera; Nematocera; Culicoidea; Anopheles
[1] Authors:
Tubio,J.M.C., Costas,J.C. and Naveira,H.F.
Title:
GYPSY35_AG, a member of the MDG3 lineage of the Ty3/gypsy group of LTR retrotransposons in Anopheles gambiae.
Journal:
Repbase Reports 4:(3) p. 62 (2004)
Abstract:
GYPSY35_AG is a family of gypsy-like LTR retrotransposons that, according to the aminoacid sequence of its Reverse Transcriptase RNase and Integrase is phylogenetically grouped with representatives of the MDG3 lineage of other organisms. GYPSY29_AG, GYPSY30_AG, GYPSY31_AG, GYPSY32_AG, GYPSY33_AG, GYPSY34_AG, GYPSY36_AG, GYPSY37_AG and GYPSY38_AG are other members of this same lineage in Anopheles gambiae. The GYPSY35-I_AG consensus was reconstructed after multiple alignment of 3 copies. The consensus encodes the 1364-aa GYPSY31_AGp gag-pol like protein (pos. 262-4353). The sequence of the LTRs flanking GYPSY35-I_AG is deposited as GYPSY35-LTR_AG. GYPSY35_AGp: MNELEQRILDLCEEFTKTGLAKRCQQKGLPSTGTKEEMARSLVESEEMSIADDSTMDQFH DMEEKSEAAASSAAAKVEPSIVQQPYSFRDVEEGIEAFCADGSVDFAAWLTDFEDVATMA GWSDEQKYVMCRKKLVGTARSFLLTMRGVSSFGALRKALVAEFGEKVRPMDIHRQLASRR RKKGESALDFIYSMQRIAKQIDLDEESVCEYIVDGIAESEAQRAALYEARTVRELKEKIA WQERAAQKQTRAVRSAWHERAGQKENKSLPVQDTIPVKNATKARCLNCGVMGHMVRNCPE QRSGPRCFQCNEFGHRANQCGQRNKQQPGTSTNLINHVQAELPTKMVQLGGKNIKAVIDT GSEVSIVRQDTLQDLGCVQQRMEQSIQQLRGFGGIIQKPIGELVTNIGIDDVEYEIGLLV VSPNSMKVPMLVGMNFLRSVCYAITNDGVQIFKKKSDNEESGSDHESAVYKIDCEQIQEL EVPEKFRDKVQALKSQYEASVVDNYEDNCPIQMKIVLEENASPFRHTPRRLPLMEEEAVE NHVGEWLRKGIVRPSTSDFASRVVVVKKKDGTSRICIDFRKLNTMVLKDGFPVPLLEEVL EQLQSAKVFTVMDLENGFFHVPIEEASRKYTAFVTKSGLFEFNRVPFGLCNSPAVFIRFV NYVFQNLLRENVLHIYMDDIVVCGSTAEECLEKMGKVFEVAAQNGLKIKWKKCRFLQTSI EFLGHHIENGSIWPGQEKVSAVKNFPIPKNIRAVQAFLGLTGFFRKFIKGYSIMAKPLTD LLRKEVDFKMGSIEIEAFNDLKSALVKEPVLKIYDRNAKTEVHTDASIKGFGATMLQWFD GELHPVYFWSKKATDAEAKHHSYVLEAKAIYLALKKFRHYLLGIKFKLVTDCNAFKQTLK KADVPREVVQWVICLEEFSFEVEHRAGDRLKHVDCLSRYPQLTMMVTCEVTARVKRSQQR DDSIKAIVEILNTRPYEDYKIKGELLYKCVEGQDLLVIPRDMEKQIISDIHSEGHFGLCK TMHAIKQRYFIPHLERKVKLILNSCVKCIIHNKKLGRKEGFLHPIDKGDQPLQTLHLDHV GPMDATGKQYKYVLTVVDGFSKFVWLYPTKTTGAEETLRKLECWSTIFGYPARIVTDRGS AFTANAFGEYANRHGIQHVVCTTGVPRGNGQAERVNRTMLSVLTKLSSEDPGKWFKVVPS VQRAINSHIHVAAGKSPFELMFGTKMRTSEVEDLSRLLEEEAYDRFDCERQEMRKGAKND ICNAQNVYKKHYDLSRKPEYAYVVGDLVAIKRTQFVAGRKLASEFLGPYEVIKINRNGRY KVKRAANCEGPNITTTSCDNMKLWSFAISNDKVFSEDEAESENE
Derived:
[1] (consensus)
Download Sequence - Format:
IG, EMBL, FASTA
References:

© 2001-2024 - Genetic Information Research Institute