Ori is AT rich so that melt easily than GC.
It is thermodynamically less stable than GC.
Initiator protein bind on AT rich seq than GC

Correct option is option (4)
The origin of replication is the site where DNA replication initiated ,
A–T pairs have 2 hydrogen bonds, while G–C pairs have 3 hydrogen bonds (stronger). , so
Agar DNA ko easily open Krna h to we need weaker hydrogen bond bcz wo easily break ho jayega
So, the DNA opens more easily at AT-rich regions.

Origin of replication usually contains AT rich sequence

At rich sequence bcz There are only 2 hydrogen bonds between A and T whereas there are 3 hydrogen bonds between G and C. So it is easier to unwind A and T as compared to G-C.

Ans is 4 bcoz AT have two hydrogen bond and GC HAVE three . In replication hydrogen bond breaks so AT rich sequence makes process energy efficient and fast

Answer aatha h but Summary reading se more than 10 question our solution

AT rich sequences are less stable and more prone to unwinding which is the need at origin of replication so that unwinding can happen fast and replication can start. Hence the answer is A T rich

Correct answer is AT rich sequence present on the origin of replication site because to unwind AT sequence less energy required because of double hydrogen bonding compare to GC sequence

At rich bcz it has 2 H bond and it melt easily

Answer is 4 … because AT have 2 H-bond and GC have 3 H-bond. Thus it is easier to break 2 H-bond than the 3 H- bond…hence origin of replication (Ori) site contains AT rich sequence

.AT have 2 H-bond and GC have 3 H-bond. Thus it is easier to break 2 H-bond than the 3 H- bond. Therefore Ori site have AT rich sequence.

Ori is usually AT rich region on dna strand as to facilitate unwinding of ds strand bcoz of less thermodynamic stability nd hydrogen bonds as compared to GC bonding

Answer d right it at has to hydrogen bond and GT has 3 hydrogen bond and last stable so unwinding which is the need of origin of application that and winding can happen fast and replace in start and gthas 3 hydrogen bonding ane not isily malte so 4 is right

AT rich SO THAT MELT EASILY

AT rich sequence because In between G and C there is three hydrogen bonds and in A and T there are two hydrogen bonds which is easier to unwind as compared to G-C.

The right answer is at rich siquece

ori is AT rich because of 2 hydrogen bond which makes it easier to unwind

AT rich sequence

Ans(4) bcz A=T Rich sequence stability is lower in compair of GC Rich sequence so AT easily unwind and separate

AT rich sequence present on ori because in AT two hydrogen bond and in GC three hydrogen bond present so AT easily unwind compare to GC.

At rich it will break easily because of hydrogen bonding

Correct answer : 4
AT Rich sequence because of less hydrogen bonding than GC ,it will break easily

AT Rich because it 2Hydrogen bond&it melt easily than GC

AT rich sequences

AT rich sequence

AT rich

At rich sequence

Right answer is at rich siquences

Right answer is at rich siquences because of this ye bhot week hote h jisse DNA easily open ho jata h

AT rich

AT rich sequence

At rich ✔️

Option 4 will be correct
AT rich

Correct answer 4 as AT will melt fast than GC because of there difference in hydrogen bonding

Done sir

option 4 – AT rich sequence.

AT rich sequence

AT Rich sequence because it 2 hydrogen bond and it melt easily than GC.