- Email: [email protected]
The human liver and reticulocyte cytochrome b5 mRNAs are products from a single gene
Vol. 178, No. 1, 1991 July 15, 1991
BIOCHEMICAL
The Human
Liver
mRNAs
are
Sara Department
AND BIOPHYSICAL RESEARCH COMMUNICATIONS Pages 38-44
and Reticulocyte Products
J.
Giordano
of
Biochemistry
from
Ohio
W. Steggles Pathology
Universities
of Medicine
Rootstown, 3,
b,
Gene
and Molecular
College
May
a Single
and Alan
Northeastern
Received
Cytochrome
Ohio
44272
1991
Using a combination of standard cDNA library screening techniques and the Polymerase Chain Reaction (PCR) we have isolated and sequenced DNA fragments corresponding to the human reticulocyte cytochrome b, mRNA. The reticulocyte specific sequence codes for amino acids 97 and 98 only, with a TAA stop codon. The reticulocyte specific 3'non-translated sequence has 15 new nucleotides then utilizes the liver mRNA sequence from amino acid 97 onward. This indicates that the reticulocyte specific exon has 24 base pairs (bp). In addition, we have isolated sequences that are derived from a transcribed cytochrome b, pseudogene. This transcript contains multiple mutations which prevent the synthesis of any functional protein. 0 1991Academic Press, Inc. Cytochrome in
two forms.
Met in
b, (b,)
as 1,
One with
found
the
liver
between
the
is
in
and
other are
b) the
98th
aa for
all
species
aa l-97
are
always
the
same in
two forms
transcriptional human
and
of b, could
processing rabbit,
post-translational
etc.
(1).
a) the
end and serve
(1)
processing
0006-291X/91 $1.50 Copyright 0 1991 by Academic Press, Inc. All rights of reproduction in any form reserved.
protein
that
counting
the
other
The
extra
with
36 aa in
the
liver
except
is
the
two forms. from
the
one mRNA.
It
erythrocyte of
38
the
bS's liver
different,
tissue
has
and i.e.,
suggested
specific
possible
could b,,
b, occur
domain,
This
is
initial
differences
binding
bovine
exists
134 aa found
essential
as a membrane
arise
of
(aa), the
tissues
C terminal
the
acids
reticulocyte,
at the
that
amphipathic
98 amino
the
two forms
a small
postthat
the
be derived
by
but
this
would
Vol.
178, No. 1, 1991
entail
the
of
protein.
the
tubulin the
BIOCHEMICAL
addition
(2). liver
one
chicken,
the
same coding
alteration
However,
for
bovine
reticulocyte and
sequence
the
(3)
with
the
liver
a real
reported
specific
b,
is which
in
for of
possibility. analyzed.
mRNA's
only
end
processing
been
reticulocyte
There
form
C-terminal
has been
mRNA has
differing
regions. membrane
b, is b,
the
post-translational
reticulocyte
liver
mitochondrial
MATERIALS
one new aa to
novel
the
RESEARCH COMMUNICATIONS
least
rare
non-translated
identity
at
This
b, to
Only
of
AND BIOPHYSICAL
the
also has
have length
the
exactly of
one only
In
the
their
report
3' of
58% amino
a
acid
(4).
AND METHODS
The human reticulocyte XZAP cDNA library was a generous gift from Dr. J. Prchal (Birmingham, AL). Human total RNA was isolated from reticulocytes (5) obtained from blood taken from normal individuals. Blood was drawn following NEOUCOM IRB approved procedures. A total of 11.4~10~ plaques were screened using standard procedures (6) and Stratagene (La Jolla, CA) protocols. Fourteen plaques were purified corresponding to four independent clones containing inserts of 0.52, 0.54, 1.9, and 3.9 kb, respectively. The inserts were isolated in Bluescript KS- according to the manufacturer's instructions (Stratagene). DNA sequencing was carried out using the chain termination method with Sequenase (USB, Cleveland, OH) and (r35S dATP (NEN, Boston, MA). Single stranded cDNA was prepared from reticulocyte total RNA (6) using random primers and MLTV (BRL, Gaithersburg, MD), and used for PCR without further purification. For the amplification of human reticulocyte cDNA, oligonucleotide primers A, B, and C derived from the liver and reticulocyte b, sequences (8 and Fig. 1) were obtained from National Biosciences (Hamel, MN) and used without further purification. The PCR amplification conditions were 30 cycles of 1.5 min at 94O, 1 min at 60°, 2.25 min at 72O with a final 7 min step at 72O. The initial PCR amplification used one tenth volume of the cDNA synthesis reaction. When samples were subjected to a second set of 60 cycles of amplification, they were purified through UltraFree columns (Millipore, Bedford, MA). PCR products were analyzed by 4% Nusieve agarose gel electrowere subcloned into phoresis and selected bands of interest Bluescript KS- (7).
RESULTS
AND
From library,
DISCUSSION the
screening
4 independent
of
the
recombinant
human phage
39
reticulocyte were
purified.
XZAP The
cDNA two
Vol.
BIOCHEMICAL
178, No. 1, 1991
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
ATG Met
GCA Ala
GAG Glu
CAG Gln
TCG Ser
GAC Asp
GAG Glu
GCC Ala
GTG Val
AAG Lys
TAC Tyr
TAC Tyr
ACC Thr
39 13
CTA Leu
GAG Glu
GAG Glu
ATT Ile
CAG Gln
AAG Lys
CAC His
AAC Asn
CAC His
AGC
Ser
AAG Lys
AGC Ser
ACC Thr
78 26
TGG Trp
CTG Leu
ATC Ile
CTG Leu
CAC His
CAC His
AAG Lys
GTG Val
TAC Tyr
GAT Asp
TTG Leu
ACC Thr
AAA Lys
117 39
TTT Phe
CTG Leu
GAA Glu
GAG Glu
CAT His
CCT Pro
GGT Gly
GGG Gly
GAA Glu
GAA Glu
GTT Val
TTA Leu
AGG Arg
156 52
GAA Glu
CAA Gln
GCT Ala
GGA Gly
GGT Gly
GAC Asp
GCT Ala
ACT Thr
GAG Glu
AAC Asn
TTT Phe
GAG Glu
GAT Asp
195 65
GTC Val
GGG Gly
CAC! TCT His Ser
ACA Thr
GAT Asp
GCC Ala
AGG
Arg
GAA Glu
ATG Met
TCC Ser
AAA Lys
ACA Thr
234 78
TTC Phe
ATC Ile
ATT Ile
GGG Gly
CTC Leu
CAT His
CCA Pro
GAT Asp
GAC Asp
AGA Arg
CCA Pro
AAG Lys
273 91
TTA Leu
AAC Asn
AAG Lys
CCT Pro
GAG Glu G CCA Pro
GAA Glu
CCT Pro
TAA xxx
AGGCGGTGTTTCAAGGAAA
316 98
CTCTTATCACTACTATTGATTCTAGTTCCAGTTGGTGGACCAACTGGGTGA
367
TCCCTGCCATCTCTGCAGTGGCCGTCGCCTTGATGTATCGCCTATACATGG
418
CAGAGGACTGAACACCTCCTCAGAAGTCAGCACAGGAAGAGCCTGCTTTGG
469
ACACGGGAGAAAAGAAGCCATTGCTAACTACTTCAACTGACAGAAACCTTC
520
ACTTGAAAACAATGATTTTAATATATCTCTTTCTTTTTCTTCCGACAT'$AG
571
AAACAAAACAAAAAGAACTGTCCTTTCTGCGCTCAAATTTTTCGAGTGTGC
622
CTTTTTATTCATCTACTTTATTTTGATGTTTCCTTAATGTGTAATTTACTT
674
ATTATAAGCATGATCTTTTAAAAATATATTTGGCTTTTAAAGT-
725 740
Fiqure 1. cytochrome underlined, polymorphism
The complete cONA. b, the alternative at nucleotide
nucleotide sequence The reticulocyte polyA site triple 288 indicated.
of
human
reticulocyte
specific
is
sequence
underlined,
and
the
The PCR primer A was AAAACAGCTGGCTCGCGGCGAACCG and based on nucleotides -1 to -19 from the human liver b, sequence Primers B and C were (8) AAAACAGCTCTTCCTGCGCTGACTTCTandCACCGCCTTTAAGGTCwerecomplementary to nucleotides 459+439 and 306-+289 of the reticulocyte
smallest for liver
(A,B;
524 and 540 bp, respectively)
analysis. b,
from
additional sequence
DNA sequencing the
showed that 3'
polyA
between
b, for
a recognizable
(Fig. sequence
1, single was
the reticulocyte
clone tail
but
sequence
underline).
and the break 40
of The 5' point
the
chosen
A corresponded
to
contained
aa 96 and aa 97.
now part WINA.
sequence.
were initially
was GAACCTTAAAGGCGGTGTTTCAAG corresponding
liver
sequence
to
24 bp inserted
stop-non-translated the
aa 86
b,
This to
an extra
glu-pro-
The remainder 3'
non-translated
end of clone between
of
the
A was not 5' sequence
Vol.
178, No. 1, 1991
and
the
coding
junction. been
sequence
Analysis
attached
new polyA
at
gave
aa 72 did
sequencing
species
have
bovine
reticulocyte
In
to
we obtained
were
purified
by
(ca l/10)
A and
C,
and
ca 350 bp.
gave Subcloning
nucleotide
organization
of
the
Clone
Pl
is
the
analysis
to
be less
(this
paper,
exon
ends
at
aa 96,
junction.
The
presence
or absence
value
in
because
the
in
restriction
analysis
enzyme
of this of
b, gene 41
A 5 /bl primers
product
of
gave
the
product
confirmed
at
96.
The
codon
a
overall
b, cDNA was confirmed.
found not
think
that
this
is
both
sequences
in
shown). of
one CCA. be
The CCA seems
6 human If
a CCA/GT
HpaII site in
A and B
with
this
analysis
restriction the
primers column.
We do not
would
cDNA,
and
5 were CCG, only there
b, cDNA,
aa l-98,
we have
the
only
and most
homogenous
specific
(data
for
5' and 3' sequence
using
of
P2 is CCG.
then
reticulocyte
reticulocyte
amplification
and P2)
A.
intron-exon
rabbit
UltraFree
to
DNA clones
8, 9, lo),
an
on the
sequencing
because
of genomic
24 bp
exception.
an apparently
reticulocyte
artifact
common,
an
coding
as clone
the
human
based
a second
(Pl
CCA and clone
a PCR generated
of the
5' end
the
reticulocyte
be the
corresponding
two clones
site
specific
expect
organized
for to
in
The
but
that
would
through
polymorphism
1).
of the
resemble
indicated
rest
and
sequence
Fig.
position
The PCR products
rise
had
Analysis
not
primers
was used
tail
alternative
reticulocyte
still
the
passage
polyA
sequence,
one
could
b, cDNA (8).
the
relative
a similarly
isolate
3'
in one exon of 24 bp coding
oligonucleotide
liver
aliquot
data
By analogy,
to
order
same
is contained
acids.
to
The
at
sequence
of the
aa 72.
an intron-exon
underline,
an unrecognizable at
the
b, mRNA (9).
breakpoint The
that
was different liver
RESEARCH COMMUNICATIONS
resemble
(triple
the
amino
but
for
not
B showed
in
junction.
other
clone
was present the
specific
aa 86 did
site
started
sequence
AND BIOPHYSICAL
a new position
B again
information
two
of
described
clone
Again
at
adenylation
previously of
BIOCHEMICAL
human
recognizes
b, cDNAs
the
previous
or
a CCG/GT CCGG,
the
may be of some future genomic
DNA.
BIOCHEMICAL
Vol. 178, No. 1, 1991
The chicken
difference is not
between
surprising
and possess
endoplasmic
the
of
finding
type
not
Northern
analysis
hybridizing
data
and
Chicken
(3). reticulum
RESEARCH COMMUNICATIONS
that
obtained
erythrocytes
from
are nucleated
as do hepatocytes.
membrane
binding
the
Therefore,
domain,
i.e.,
a liver
be unexpected.
signal
studied
our
a b, with-a
b5, would
AND BIOPHYSICAL
had either
of
human
of
ca 720bp,
little
or
reticulocyte
RNA showed
suggesting
that
transcribed
no
the
only
one
individual
pseudogenes
(data
not
shown). Clones represent could the
the
have same
from
C and
clone
liver
been 5'
D
or
partially
terminal A.
3900
(1900,
bp)
reticulocyte
However,
both
mRNA's
as clone C and
clearly
forms
processed sequence
were
D
of (9).
B (Fig.
had the
GGGGCTGTGTG;LGCTGGGk!TGGCTCGC$G$$W&CCGAG
too
b,,
however,
Both 2),
long
to they
C and D had but
differed
same 3' sequence.
12 ATG
GC$
3 ZAG
4 CAG
5 TCG
6 GAC
7 $AG
8 GCC
9 GTG
10 AAG
11 12 TS;'P Tt$
13 ECC
14 CT9
15 GAG
16 GAA
17 ATT
18 CA-
19 AAG
20 CAC
21 AAT
22 CA2
23 AGC
24 AA$
25 AGC
26 ACC
27 TGG
34 GTG
35 TAC
36 GAT
37 TTG
38 ACC
39 AAA
40 TT;
41 CTG
42 G$A
43 GAG
44 CAT
45 CCT
46 GGT
47 GGG
48 $AA
49 GAA
50 GT$
51 TTA
52 AGG
53 GAA
54 ;AA
55 GCT
56 GGA
57 GA-
58 GA;
59 GCT
60 ACT
61 GA$
62 AAC
63 TTT
64 GAG
65 GAT
66 GTC
67 GGG
68 CAC
69 TCT
70 ACA
71 GAT
72 GCC
73 AG$
74 GAA
75 TT$
76 y'c
77 AAA
78 ;CA
79 T$$
80 ATC
81 ATT
82 GGG
83 G;;
84 -T-
85 CAT
86 CT$
87 GAT
88 GAC
89 AGA
90 -TA
91 AAG
92 TTA
93 A$:
94 AAG
95 CCT
96 TC$
97 GAA
98 ;TT
stop TTT
TTTTTTTTT Fiqure 2. The partial nucleotide sequence of the reticulocyte cytochrome b, pseudogene transcript. Only the 5' and 3' end sequences and the hybridizing region are shown. The numbers 1-98 correspond to the reticulocyte b, codons (Fig. 1). * represents a single bp change, - indicates a-1 bp deletibn, -and . indicates a 1 bp insertion. The 18bp deletion occurs between codons 27 and 34.
42
In
Vol. 178, No. 1, 1991
order
to
analyze
was isolated
clone
as a HinfI
Analysis
showed
pseudogene of the
BIOCHEMICAL
D in more
detail,
fragment,
subcloned
that
spanning
the
sequence
amino
pseudogene
acids
sequence,
The
represent
transcripts
The
data
pseudogene
deletions,
there
bp
(Fig.
it
is
different (9,13). are
a rare from As yet,
present
in
the
to obtain
2).
of
a
b,
the
rest
and used as sequencing clone
D, and clone
an 18bp
b, pseudogene.
deletion,
plus
43
the
C,
5 single
one
bp
authentic
bp
changes.
reticulocyte
1). of
a pseudogene
event. three
that
a reticulocyte
with
(Fig.
TTGGTGAAATCGTAC-
that
insertions,
sequence
and sequenced
In order
from
contains
The transcription but
l-98.
is a ca 87% homology
b, cDNA sequence
hybridizing
represented
2) indicates
derived
single
the
were synthesized
transcript 2
Overall,
(Fig.
RESEARCH COMMUNICATIONS
two oligonucleotides,
ACC and TTTGAGGATGTCGGGCAC, primers.
AND BIOPHYSICAL
The liver
we do not any individual's
has been
sequence
of
b, pseudogenes know
exactly
described
this
pseudogene
previously
how many
(11,12) is
isolated
b, pseudogenes
genome.
ACKNOWLEDGMENTS We thank Dr. Prchal for the human reticulocyte library. This work was supported by funds from the American Heart Association, Ohio Affiliate, The and the United Way of Stark County, Ohio. accession number for the reticulocyte b, and the pseudogene sequences are M60174 and M64714, respectively.
REFERENCES 1. 2. 3. 4. 5. 6. 7. 8.
Kimura S, Abe K, and Sugita Y (1984) FEBS Letters, 169, 143146. Raybin D, and Flavin M (1977) Biochemistry, 16, 2189-2194. Arch. Biochem. Biophys., Zhang H, and Somerville C (1990) 280, 412-415. Lederer F, Ghrir R, Guiard B, Cartial S, and Ito A (1983) Eur. J. Biochem., 132, 95-102. Chomczynski, P, and Sacchi, N (1987) Anal. Biochem., 162, 156159. in Molecular Maniatis T, Fritsch EF, and Sambrook J (1982) Cold Spring Harbor. Cloning. A Laboratory Manual. BioTechniques, 3, 452-453. Struhl K (1985) Yoo M, and Steggles AW (1988) Biochem. Biophys. Res. COmmUn., 156, 576-600. 43
Vol.
9.
10. 11. 12. 13.
178,
No.
1, 1991
BIOCHEMICAL
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
Yoo M, and Steggles AW (1989) Biochem. Biophys Res. Commun., 163, 18-24. Miyata M, Nagata K, Yamajoe Y, and Kata R (1989) Pharmacol. Res., 21, 513-519. Sorge J, Gross E, West C, and Beutler E (1990) J. Clin. Investig., 86, 1137-1141. McCarrey JR, and Thomas K (1987) Nature, 326, 501-505. Yoo M, and Steggles AW In preparation.
44
BIOCHEMICAL
The Human
Liver
mRNAs
are
Sara Department
AND BIOPHYSICAL RESEARCH COMMUNICATIONS Pages 38-44
and Reticulocyte Products
J.
Giordano
of
Biochemistry
from
Ohio
W. Steggles Pathology
Universities
of Medicine
Rootstown, 3,
b,
Gene
and Molecular
College
May
a Single
and Alan
Northeastern
Received
Cytochrome
Ohio
44272
1991
Using a combination of standard cDNA library screening techniques and the Polymerase Chain Reaction (PCR) we have isolated and sequenced DNA fragments corresponding to the human reticulocyte cytochrome b, mRNA. The reticulocyte specific sequence codes for amino acids 97 and 98 only, with a TAA stop codon. The reticulocyte specific 3'non-translated sequence has 15 new nucleotides then utilizes the liver mRNA sequence from amino acid 97 onward. This indicates that the reticulocyte specific exon has 24 base pairs (bp). In addition, we have isolated sequences that are derived from a transcribed cytochrome b, pseudogene. This transcript contains multiple mutations which prevent the synthesis of any functional protein. 0 1991Academic Press, Inc. Cytochrome in
two forms.
Met in
b, (b,)
as 1,
One with
found
the
liver
between
the
is
in
and
other are
b) the
98th
aa for
all
species
aa l-97
are
always
the
same in
two forms
transcriptional human
and
of b, could
processing rabbit,
post-translational
etc.
(1).
a) the
end and serve
(1)
processing
0006-291X/91 $1.50 Copyright 0 1991 by Academic Press, Inc. All rights of reproduction in any form reserved.
protein
that
counting
the
other
The
extra
with
36 aa in
the
liver
except
is
the
two forms. from
the
one mRNA.
It
erythrocyte of
38
the
bS's liver
different,
tissue
has
and i.e.,
suggested
specific
possible
could b,,
b, occur
domain,
This
is
initial
differences
binding
bovine
exists
134 aa found
essential
as a membrane
arise
of
(aa), the
tissues
C terminal
the
acids
reticulocyte,
at the
that
amphipathic
98 amino
the
two forms
a small
postthat
the
be derived
by
but
this
would
Vol.
178, No. 1, 1991
entail
the
of
protein.
the
tubulin the
BIOCHEMICAL
addition
(2). liver
one
chicken,
the
same coding
alteration
However,
for
bovine
reticulocyte and
sequence
the
(3)
with
the
liver
a real
reported
specific
b,
is which
in
for of
possibility. analyzed.
mRNA's
only
end
processing
been
reticulocyte
There
form
C-terminal
has been
mRNA has
differing
regions. membrane
b, is b,
the
post-translational
reticulocyte
liver
mitochondrial
MATERIALS
one new aa to
novel
the
RESEARCH COMMUNICATIONS
least
rare
non-translated
identity
at
This
b, to
Only
of
AND BIOPHYSICAL
the
also has
have length
the
exactly of
one only
In
the
their
report
3' of
58% amino
a
acid
(4).
AND METHODS
The human reticulocyte XZAP cDNA library was a generous gift from Dr. J. Prchal (Birmingham, AL). Human total RNA was isolated from reticulocytes (5) obtained from blood taken from normal individuals. Blood was drawn following NEOUCOM IRB approved procedures. A total of 11.4~10~ plaques were screened using standard procedures (6) and Stratagene (La Jolla, CA) protocols. Fourteen plaques were purified corresponding to four independent clones containing inserts of 0.52, 0.54, 1.9, and 3.9 kb, respectively. The inserts were isolated in Bluescript KS- according to the manufacturer's instructions (Stratagene). DNA sequencing was carried out using the chain termination method with Sequenase (USB, Cleveland, OH) and (r35S dATP (NEN, Boston, MA). Single stranded cDNA was prepared from reticulocyte total RNA (6) using random primers and MLTV (BRL, Gaithersburg, MD), and used for PCR without further purification. For the amplification of human reticulocyte cDNA, oligonucleotide primers A, B, and C derived from the liver and reticulocyte b, sequences (8 and Fig. 1) were obtained from National Biosciences (Hamel, MN) and used without further purification. The PCR amplification conditions were 30 cycles of 1.5 min at 94O, 1 min at 60°, 2.25 min at 72O with a final 7 min step at 72O. The initial PCR amplification used one tenth volume of the cDNA synthesis reaction. When samples were subjected to a second set of 60 cycles of amplification, they were purified through UltraFree columns (Millipore, Bedford, MA). PCR products were analyzed by 4% Nusieve agarose gel electrowere subcloned into phoresis and selected bands of interest Bluescript KS- (7).
RESULTS
AND
From library,
DISCUSSION the
screening
4 independent
of
the
recombinant
human phage
39
reticulocyte were
purified.
XZAP The
cDNA two
Vol.
BIOCHEMICAL
178, No. 1, 1991
AND BIOPHYSICAL RESEARCH COMMUNICATIONS
ATG Met
GCA Ala
GAG Glu
CAG Gln
TCG Ser
GAC Asp
GAG Glu
GCC Ala
GTG Val
AAG Lys
TAC Tyr
TAC Tyr
ACC Thr
39 13
CTA Leu
GAG Glu
GAG Glu
ATT Ile
CAG Gln
AAG Lys
CAC His
AAC Asn
CAC His
AGC
Ser
AAG Lys
AGC Ser
ACC Thr
78 26
TGG Trp
CTG Leu
ATC Ile
CTG Leu
CAC His
CAC His
AAG Lys
GTG Val
TAC Tyr
GAT Asp
TTG Leu
ACC Thr
AAA Lys
117 39
TTT Phe
CTG Leu
GAA Glu
GAG Glu
CAT His
CCT Pro
GGT Gly
GGG Gly
GAA Glu
GAA Glu
GTT Val
TTA Leu
AGG Arg
156 52
GAA Glu
CAA Gln
GCT Ala
GGA Gly
GGT Gly
GAC Asp
GCT Ala
ACT Thr
GAG Glu
AAC Asn
TTT Phe
GAG Glu
GAT Asp
195 65
GTC Val
GGG Gly
CAC! TCT His Ser
ACA Thr
GAT Asp
GCC Ala
AGG
Arg
GAA Glu
ATG Met
TCC Ser
AAA Lys
ACA Thr
234 78
TTC Phe
ATC Ile
ATT Ile
GGG Gly
CTC Leu
CAT His
CCA Pro
GAT Asp
GAC Asp
AGA Arg
CCA Pro
AAG Lys
273 91
TTA Leu
AAC Asn
AAG Lys
CCT Pro
GAG Glu G CCA Pro
GAA Glu
CCT Pro
TAA xxx
AGGCGGTGTTTCAAGGAAA
316 98
CTCTTATCACTACTATTGATTCTAGTTCCAGTTGGTGGACCAACTGGGTGA
367
TCCCTGCCATCTCTGCAGTGGCCGTCGCCTTGATGTATCGCCTATACATGG
418
CAGAGGACTGAACACCTCCTCAGAAGTCAGCACAGGAAGAGCCTGCTTTGG
469
ACACGGGAGAAAAGAAGCCATTGCTAACTACTTCAACTGACAGAAACCTTC
520
ACTTGAAAACAATGATTTTAATATATCTCTTTCTTTTTCTTCCGACAT'$AG
571
AAACAAAACAAAAAGAACTGTCCTTTCTGCGCTCAAATTTTTCGAGTGTGC
622
CTTTTTATTCATCTACTTTATTTTGATGTTTCCTTAATGTGTAATTTACTT
674
ATTATAAGCATGATCTTTTAAAAATATATTTGGCTTTTAAAGT-
725 740
Fiqure 1. cytochrome underlined, polymorphism
The complete cONA. b, the alternative at nucleotide
nucleotide sequence The reticulocyte polyA site triple 288 indicated.
of
human
reticulocyte
specific
is
sequence
underlined,
and
the
The PCR primer A was AAAACAGCTGGCTCGCGGCGAACCG and based on nucleotides -1 to -19 from the human liver b, sequence Primers B and C were (8) AAAACAGCTCTTCCTGCGCTGACTTCTandCACCGCCTTTAAGGTCwerecomplementary to nucleotides 459+439 and 306-+289 of the reticulocyte
smallest for liver
(A,B;
524 and 540 bp, respectively)
analysis. b,
from
additional sequence
DNA sequencing the
showed that 3'
polyA
between
b, for
a recognizable
(Fig. sequence
1, single was
the reticulocyte
clone tail
but
sequence
underline).
and the break 40
of The 5' point
the
chosen
A corresponded
to
contained
aa 96 and aa 97.
now part WINA.
sequence.
were initially
was GAACCTTAAAGGCGGTGTTTCAAG corresponding
liver
sequence
to
24 bp inserted
stop-non-translated the
aa 86
b,
This to
an extra
glu-pro-
The remainder 3'
non-translated
end of clone between
of
the
A was not 5' sequence
Vol.
178, No. 1, 1991
and
the
coding
junction. been
sequence
Analysis
attached
new polyA
at
gave
aa 72 did
sequencing
species
have
bovine
reticulocyte
In
to
we obtained
were
purified
by
(ca l/10)
A and
C,
and
ca 350 bp.
gave Subcloning
nucleotide
organization
of
the
Clone
Pl
is
the
analysis
to
be less
(this
paper,
exon
ends
at
aa 96,
junction.
The
presence
or absence
value
in
because
the
in
restriction
analysis
enzyme
of this of
b, gene 41
A 5 /bl primers
product
of
gave
the
product
confirmed
at
96.
The
codon
a
overall
b, cDNA was confirmed.
found not
think
that
this
is
both
sequences
in
shown). of
one CCA. be
The CCA seems
6 human If
a CCA/GT
HpaII site in
A and B
with
this
analysis
restriction the
primers column.
We do not
would
cDNA,
and
5 were CCG, only there
b, cDNA,
aa l-98,
we have
the
only
and most
homogenous
specific
(data
for
5' and 3' sequence
using
of
P2 is CCG.
then
reticulocyte
reticulocyte
amplification
and P2)
A.
intron-exon
rabbit
UltraFree
to
DNA clones
8, 9, lo),
an
on the
sequencing
because
of genomic
24 bp
exception.
an apparently
reticulocyte
artifact
common,
an
coding
as clone
the
human
based
a second
(Pl
CCA and clone
a PCR generated
of the
5' end
the
reticulocyte
be the
corresponding
two clones
site
specific
expect
organized
for to
in
The
but
that
would
through
polymorphism
1).
of the
resemble
indicated
rest
and
sequence
Fig.
position
The PCR products
rise
had
Analysis
not
primers
was used
tail
alternative
reticulocyte
still
the
passage
polyA
sequence,
one
could
b, cDNA (8).
the
relative
a similarly
isolate
3'
in one exon of 24 bp coding
oligonucleotide
liver
aliquot
data
By analogy,
to
order
same
is contained
acids.
to
The
at
sequence
of the
aa 72.
an intron-exon
underline,
an unrecognizable at
the
b, mRNA (9).
breakpoint The
that
was different liver
RESEARCH COMMUNICATIONS
resemble
(triple
the
amino
but
for
not
B showed
in
junction.
other
clone
was present the
specific
aa 86 did
site
started
sequence
AND BIOPHYSICAL
a new position
B again
information
two
of
described
clone
Again
at
adenylation
previously of
BIOCHEMICAL
human
recognizes
b, cDNAs
the
previous
or
a CCG/GT CCGG,
the
may be of some future genomic
DNA.
BIOCHEMICAL
Vol. 178, No. 1, 1991
The chicken
difference is not
between
surprising
and possess
endoplasmic
the
of
finding
type
not
Northern
analysis
hybridizing
data
and
Chicken
(3). reticulum
RESEARCH COMMUNICATIONS
that
obtained
erythrocytes
from
are nucleated
as do hepatocytes.
membrane
binding
the
Therefore,
domain,
i.e.,
a liver
be unexpected.
signal
studied
our
a b, with-a
b5, would
AND BIOPHYSICAL
had either
of
human
of
ca 720bp,
little
or
reticulocyte
RNA showed
suggesting
that
transcribed
no
the
only
one
individual
pseudogenes
(data
not
shown). Clones represent could the
the
have same
from
C and
clone
liver
been 5'
D
or
partially
terminal A.
3900
(1900,
bp)
reticulocyte
However,
both
mRNA's
as clone C and
clearly
forms
processed sequence
were
D
of (9).
B (Fig.
had the
GGGGCTGTGTG;LGCTGGGk!TGGCTCGC$G$$W&CCGAG
too
b,,
however,
Both 2),
long
to they
C and D had but
differed
same 3' sequence.
12 ATG
GC$
3 ZAG
4 CAG
5 TCG
6 GAC
7 $AG
8 GCC
9 GTG
10 AAG
11 12 TS;'P Tt$
13 ECC
14 CT9
15 GAG
16 GAA
17 ATT
18 CA-
19 AAG
20 CAC
21 AAT
22 CA2
23 AGC
24 AA$
25 AGC
26 ACC
27 TGG
34 GTG
35 TAC
36 GAT
37 TTG
38 ACC
39 AAA
40 TT;
41 CTG
42 G$A
43 GAG
44 CAT
45 CCT
46 GGT
47 GGG
48 $AA
49 GAA
50 GT$
51 TTA
52 AGG
53 GAA
54 ;AA
55 GCT
56 GGA
57 GA-
58 GA;
59 GCT
60 ACT
61 GA$
62 AAC
63 TTT
64 GAG
65 GAT
66 GTC
67 GGG
68 CAC
69 TCT
70 ACA
71 GAT
72 GCC
73 AG$
74 GAA
75 TT$
76 y'c
77 AAA
78 ;CA
79 T$$
80 ATC
81 ATT
82 GGG
83 G;;
84 -T-
85 CAT
86 CT$
87 GAT
88 GAC
89 AGA
90 -TA
91 AAG
92 TTA
93 A$:
94 AAG
95 CCT
96 TC$
97 GAA
98 ;TT
stop TTT
TTTTTTTTT Fiqure 2. The partial nucleotide sequence of the reticulocyte cytochrome b, pseudogene transcript. Only the 5' and 3' end sequences and the hybridizing region are shown. The numbers 1-98 correspond to the reticulocyte b, codons (Fig. 1). * represents a single bp change, - indicates a-1 bp deletibn, -and . indicates a 1 bp insertion. The 18bp deletion occurs between codons 27 and 34.
42
In
Vol. 178, No. 1, 1991
order
to
analyze
was isolated
clone
as a HinfI
Analysis
showed
pseudogene of the
BIOCHEMICAL
D in more
detail,
fragment,
subcloned
that
spanning
the
sequence
amino
pseudogene
acids
sequence,
The
represent
transcripts
The
data
pseudogene
deletions,
there
bp
(Fig.
it
is
different (9,13). are
a rare from As yet,
present
in
the
to obtain
2).
of
a
b,
the
rest
and used as sequencing clone
D, and clone
an 18bp
b, pseudogene.
deletion,
plus
43
the
C,
5 single
one
bp
authentic
bp
changes.
reticulocyte
1). of
a pseudogene
event. three
that
a reticulocyte
with
(Fig.
TTGGTGAAATCGTAC-
that
insertions,
sequence
and sequenced
In order
from
contains
The transcription but
l-98.
is a ca 87% homology
b, cDNA sequence
hybridizing
represented
2) indicates
derived
single
the
were synthesized
transcript 2
Overall,
(Fig.
RESEARCH COMMUNICATIONS
two oligonucleotides,
ACC and TTTGAGGATGTCGGGCAC, primers.
AND BIOPHYSICAL
The liver
we do not any individual's
has been
sequence
of
b, pseudogenes know
exactly
described
this
pseudogene
previously
how many
(11,12) is
isolated
b, pseudogenes
genome.
ACKNOWLEDGMENTS We thank Dr. Prchal for the human reticulocyte library. This work was supported by funds from the American Heart Association, Ohio Affiliate, The and the United Way of Stark County, Ohio. accession number for the reticulocyte b, and the pseudogene sequences are M60174 and M64714, respectively.
REFERENCES 1. 2. 3. 4. 5. 6. 7. 8.
Kimura S, Abe K, and Sugita Y (1984) FEBS Letters, 169, 143146. Raybin D, and Flavin M (1977) Biochemistry, 16, 2189-2194. Arch. Biochem. Biophys., Zhang H, and Somerville C (1990) 280, 412-415. Lederer F, Ghrir R, Guiard B, Cartial S, and Ito A (1983) Eur. J. Biochem., 132, 95-102. Chomczynski, P, and Sacchi, N (1987) Anal. Biochem., 162, 156159. in Molecular Maniatis T, Fritsch EF, and Sambrook J (1982) Cold Spring Harbor. Cloning. A Laboratory Manual. BioTechniques, 3, 452-453. Struhl K (1985) Yoo M, and Steggles AW (1988) Biochem. Biophys. Res. COmmUn., 156, 576-600. 43
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9.
10. 11. 12. 13.
178,
No.
1, 1991
BIOCHEMICAL
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
Yoo M, and Steggles AW (1989) Biochem. Biophys Res. Commun., 163, 18-24. Miyata M, Nagata K, Yamajoe Y, and Kata R (1989) Pharmacol. Res., 21, 513-519. Sorge J, Gross E, West C, and Beutler E (1990) J. Clin. Investig., 86, 1137-1141. McCarrey JR, and Thomas K (1987) Nature, 326, 501-505. Yoo M, and Steggles AW In preparation.
44